Crystal structure of the BTK kinase domain

ABSTRACT

The invention provides crystal structure of the kinase domain of BTK, as well as use of the crystal structure in the design, identification, and verification of ligands that modulate BTK activity.

This application claims priority to U.S. Provisional Application Ser.No. 60/339,206, filed Dec. 7, 2001 and U.S. Provisional Application Ser.No.60/312,597, filed Aug. 15, 2001.

FIELD OF THE INVENTION

This invention relates to the crystal structure of the Bruton's TyrosineKinase (BTK) kinase domain (KD).

BACKGROUND OF THE INVENTION

Bruton's tyrosine kinase (BTK), a member of the BTK/TEC family ofcytoplasmic protein tyrosine kinases (PTKs), is intimately involved insignal transduction pathways regulating survival, activation,proliferation, and differentiation of B-lineage lymphoid cells (30, 34,50, 61, 64). Signal transduction pathways are initiated by the bindingof a variety of extracellular ligands, such as antigens, to cell surfacereceptors (30). Following ligation of the B-cell antigen receptor, BTKactivation by the concerted actions of the PTKs LYN and SYK is requiredfor induction of phospholipase C-γ2 mediated calcium mobilization (30).Mutations in the human BTK gene are the cause of X-linkedagammaglobulinemia (XLA), a male immune deficiency disordercharacterized by a lack of mature, immunoglobulin-producing, peripheralB-cells (58, 65). In mice, mutations in the btk gene have beenidentified as the cause of murine X-linked immune deficiency (51).

BTK is a dual-function regulator of apoptosis, in that it promotesradiation-induced apoptosis, but inhibits Fas-activated apoptosis inB-cells (59, 61). BTK promotes apoptosis when B-cells are exposed toreactive oxygen intermediates, partly by down-regulating theanti-apoptotic activity of STAT3 transcription factor. In contrast, BTKinhibits apoptosis when it associates with the death receptor Fas andimpairs its interaction with FADD. The interaction between Fas and FADDis essential for the recruitment and activation of FLICE by Fas duringthe apoptotic signal, thereby preventing the assembly of a proapoptoticdeath-inducing signaling complex (DISC) after Fas-ligation.

The amino acid sequence of BTK has been determined for human and mouseand functional domains have been assigned (5, 48, 58). The N-terminalregion contains a pleckstrin homology (PH) domain followed by aproline-rich TEC homology (TH) domain. The PH domain is the site of bothactivation (by phosphatidylinositol phosphates and G-protein βγsubunits) and inhibition (by protein kinase C) (58). The remainingportion of BTK contains SRC homology (SH) domains SH3, SH2, and aC-terminal kinase domain, also known as the SH1 domain. The SH2 domainmediates binding to trosine-phosphorylated peptide motifs on othermolecules, while the SH3 domain mediates binding to proline-rich motifson other molecules. Mutations in the SH 1 domain, SH2 domain, and the PHdomain of human BTK have been found to cause maturational blocks atearly stages of B-cell ontogeny leading to XLA (67). BTK-deficient micegenerated by introducing PH domain or SH1 domain mutations into the BTKgene of embryonic stem cells exhibit defective B-cell development andfunction (25). The crystal structure of the PH domain has beendetermined and has contributed to a structural understanding of howpoint mutations of the PH domain can inactivate BTK and cause XLA (21).However, the crystal structure of the kinase domain has not beenresolved.

The BTK polypeptide includes two regulatory tyrosine residues, Y223 andY551, which participate in kinase activation (52). An SRC family PTK,such as LYN, initially activates BTK through transphosphorylation ofY551 on the presumed “activation loop” (A-loop) of the kinase domain.This activation, in turn, stimulates autophosphorylation of the Y223residue within the SH3 domain ligand-binding site (43, 44, 46, 49, 50,52, 68). Phosphorylation of Y223 may function to disrupt anintramolecular TH-SH3 domain interaction, allowing the BTK TH domain tobind SH3 domains of SRC family PTKs, and the BTK PH domain to bind aproline-rich region of CBL (2, 30, 33). In other members of the PTK andPSK families, the A-loop serves as a negative regulator of kinaseactivity by blocking access of substrates to the ATP and substratepeptide binding sites that lie in the catalytic cleft of the kinasedomain (20, 23). In some members, including apo-IRK, the catalytic siteis sterically blocked by amino residues in the A loop acting as asubstrate peptide mimic (18, 19).

The mechanism by which phosphorylation of Y551 brings aboutconformational changes in the kinase domain as well as kinase activationhas not been elucidated. This structural question begs the illustrationof a solved crystal structure. Furthermore the dimensions, conformationand binding properties of the substrate binding sites for ATP andsubstrates within the kinase domain are not known. Molecular interactionwith BTK inducing phosphorylation of Y551 within the kinase domain andinitial activation of BTK is not understood. Similarly, there is nostructural understanding of how XLA is caused by various mutationswithin the BTK kinase domain.

In addition to providing answers to the above questions, determining thecrystal structure of the kinase domain of BTK is needed, for a host ofapplied purposes, such as: assays for BTK-ligand interaction andfunction, modeling the structure-function relationship of BTK and othermolecules, diagnostic assays for mutation-induced pathologies, andrational design of agents useful in modulating BTK activity.

Modulators of BTK are useful, for example, to promote or induceapoptosis in a BTK-expressing cell by inhibiting or preventing theaction of BTK, to treat a disease (pathologic condition) where BTK isimplicated and inhibition of its action is desired (e.g. cancer, such asleukemia or lymphoma), and to lower the resistance of a BTK expressingcell to drug therapy by inhibiting or preventing the action of BTK.

SUMMARY OF THE INVENTION

The X-ray crystal structure of the kinase domain of BTK (BTK-KD) has nowbeen determined by multiple isomorphous replacement. Coordinates of thecrystal structure are listed in Table 1.

The invention provides the crystal structure of the BTK-KD, as well asuse of the crystal structure to model BTK activity. This use of thestructure includes modeling the interaction of ligands with the BTK-KD;activation and inhibition of BTK; and the rational design of modulatorsof BTK activity. For example, these modulators include ligands thatinteract with BTK-KD and modulate BTK activities, such as the survival,activation, proliferation, and differentiation of B-lineage lymphoidcells.

BRIEF DESCRIPTION OF FIGURES

FIG. 1 is a ribbon representation of the dimeric crystal structure ofthe BTK-KD.

FIG. 2 is a 2Fo-Fc electron density map (contoured at 1.0 σ) surroundingthe R544, E445, and Y551 residues of the BTK-KD crystal, shown in stereoview.

FIG. 3 is a computer image showing the backbone positions of the kinaseloop A-loop and helix αC of BTK-KD, phospho-LCK, and c-SRC, superimposedto illustrate their conformational differences and similarities.

FIG. 4 is a computer image showing the non-inhibitory conformation ofthe A-loop of BTK-KD.

FIG. 5 is a computer image showing the inhibitory conformation of theA-loop of IRK.

FIG. 6 is a model image of a proposed activation mechanism based onsuperimposed crystal structures of the kinase domains of BTK-KD andphospho-LCK.

FIG. 7 is a diagrammatic representation of a proposed pathway for BTKcatalysis activation, whereby R544 releases E445 to interact with Y551upon trans-phosphorylation, while E445 subsequently becomes bound toATP.

FIG. 8 is a computer image of a backbone model of phosphorylated BTKassociated with ATP, Mg⁺⁺ and the substrate Igα peptide.

FIG. 9 is a computer image of a space-filling model of phosphorylatedBTK associated with ATP, Mg⁺⁺ and the substrate Igα peptide.

FIG. 10 is a backbone model of the BTK kinase domain, shown in stereoview, showing X-linked agammaglobulinaemia (XLA) related mutations ofthe BTK kinase domain.

BRIEF DESCRIPTION OF SEQUENCES

SEQ ID NO:1 is an amino acid sequence of human BTK.

SEQ ID NO:2 is an amino acid sequence of murine BTK.

SEQ ID NO:3 is an amino acid sequence of the kinase domain of human BTK(I397-S659).

SEQ ID NO:4 is an amino acid sequence of the kinase domain of murine BTK(i397-S659).

SEQ ID NO:5 is a nucleotide sequence of human BTK.

SEQ ID NO:6 is a nucleotide sequence of murine BTK.

SEQ ID NO:7 is an amino acid sequence of human BTK.

Abbreviations:

-   -   (Å) Ångström    -   (AA or aa) Amino acids    -   (AMP-PNP) 5″-Adenylylimidodiphosphate, Adenosine 5′[β,γ        imido]triphosphate (cAPK) cAMP-dependent kinase    -   (BCNU) 1,3-Bis(2-chloroethyl)-1-nitrosourea, or carmustine    -   (BLK) Tyrosine kinase, B-cell specific    -   (BMX) Tyrosine kinase, bone marrow, BTK/TEC family    -   (BTK) Bruton's tyrosine kinase, non-receptor tyrosine kinase    -   (CD28) T-cell surface antigen    -   (CD20) B 1, B-lymphocyte surface antigen    -   (DISC) Death-inducing signaling complex; i.e. FAS, FADD, and        FLICE (caspase-8)    -   (DMSO) Dimethyl sulfoxide    -   (DTT) Dithiothreitol    -   (EBV) Epstein Barr virus    -   (EDTA) Ethylene diamine tetraacetic acid    -   (EMP) Ethylene mercury phosphate    -   (EMT) ITK, Tyrosine kinase, expressed in T-cells and natural        killer (NK) cells    -   (FADD) MORT1, FAS associating protein with death domain    -   (FAS) Transmembrane protein, intracellular death domain,        mediates apoptosis    -   (FFT) Fast Fourier transform    -   (FGFRK) FGF receptor, tyrosine kinase domain    -   (FLICE) FADD-like ICE, Caspase-8, aspartate-specific cysteine        protease    -   (HCK) Tyrosine kinase, hematopoetic cell-specific    -   (IDEC 8) Anti-CD20 monoclonal antibody    -   (IRK) Insulin receptor, tyrosine kinase domain    -   (KD) Kinase domain    -   (LCK) Tyrosine kinase, lymphocyte-specific    -   (LYN) Tyrosine kinase, T-cell expression    -   (NCS) Non-crystallographic symmetry    -   (NIDDM) Non-insulin-dependent diabetes mellitus    -   (PAGE) Polyacrylamide gel electrophoresis    -   (PEG) Polyethylene glycol    -   (PHK) Phosphorylase kinase    -   (PMSF) Phenylmethylsulfonyl fluoride    -   (PH) Pleckstrin homology    -   (PTK) Protein tyrosine kinase    -   (SDS) Sodium dodecyl sulfate    -   (SH1) SRC homology 1 domain, or kinase domain    -   (SH2) SRC homology 2 domain    -   (SH3) SRC homology 3 domain    -   (c-SRC) Tyrosine kinase homologous to v-SRC gene of Rous sarcoma        virus    -   (SYK) Tyrosine kinase, spleen and thymus, widely expressed in        hematopoetic cells    -   (TEC) Non-receptor tyrosine kinase, widely expressed in        hematopoetic cells    -   (TXK) Tyrosine kinase, BTK/TEC family    -   (TRIS) 2-Amino-2-(hydroxymethyl)-1,3-propanediol    -   (XLA) X-linked agammaglobulinemia

DETAILED DESCRIPTION OF THE INVENTION

Definitions:

The following definitions are used herein, unless otherwise described:

“Crystal” means the periodic arrangement of the unit cell (filled withthe motif and its symmetry generated equivalents) into a lattice.

“Complementary or complement” as used herein, means the fit orrelationship between two molecules that permits interaction, includingfor example, space, charge, three-dimensional configuration, and thelike.

“Heavy atom derivative”, as used herein, means a derivative produced bychemically modifying a crystal with a heavy atom such as Hg or Au.

“Kinase domain”, as used herein, means the catalytic domain of BTK whichhas a consensus sequence in common with other protein tyrosine kinases,including TEC, BMX, BLK, EMT, and TXK. The catalytic activity of BTKrefers to the tyrosine phosphorylation of ligands such as the signaltransduction protein, Igα. It is also termed the SH1 domain, inreference to the SRC homology domain 1.

“Ligand”, as used herein, refers to an agent that associates with theBTK kinase domain, and may be an inhibitor or stimulator of BTKactivity.

“Molecular complex”, as used herein, refers to a combination of boundsubstrate or ligand with polypeptide, such as BTK with bound ATP, or BTKwith bound Igα and ATP.

“Machine-readable data storage medium”, as used herein, means a datastorage material encoded with machine-readable data, wherein a machineprogrammed with instructions for using such data displays a graphicalthree-dimensional representation of molecules or molecular complexes.

“RD” kinase, as used herein, refers to protein kinases that have anarginine residue followed by an aspartic acid residue at the positionsequivalent to the R520 and D521 residues in BTK. Examples include LCK(lymphocyte specific tyrosine kinase) and c-SRC.

“Scalable”, as used herein, means the increasing or decreasing ofdistances between coordinates (configuration of points) by a scalarfactor while keeping the angles essentially the same.

“Space group symmetry”, as used herein, means the whole symmetry of thecrystal that combines the translational symmetry of a crystallinelattice with the point group symmetry. A space group is designated by acapital letter identifying the lattice type (P, A, F, etc.) followed bythe point group symbol in which the rotation and reflection elements areextended to include screw axes and glide planes. Note that the pointgroup symmetry for a given space group can be determined by removing thecell centering symbol of the space group and replacing all screw axes bysimilar rotation axes and replacing all glide planes with mirror planes.The point group symmetry for a space group describes the true symmetryof its reciprocal lattice.

“Unit cell”, as used herein, means the atoms in a crystal that arearranged in a regular repeating pattern, in which the smallest repeatingunit is called the unit cell. The entire structure can be reconstructedfrom knowledge of the unit cell, which is characterized by three lengths(a, b and c) and three angles (α, β and γ). The quantities a and b arethe lengths of the sides of the base of the cell and γ is the anglebetween these two sides. The quantity c is the height of the unit cell.The angles α and β describe the angles between the base and the verticalsides of the unit cell.

“X-ray diffraction pattern” means the pattern obtained from X-rayscattering of the periodic assembly of molecules or atoms in a crystal.X-ray crystallography is an experimental technique that exploits thefact that X-rays are diffracted by crystals. It is not an imagingtechnique. X-rays have the proper wavelength (in the Ångström (Å) range,approximately 10⁻⁸ cm) to be scattered by the electron cloud of an atomof comparable size. Based on the diffraction pattern obtained from X-rayscattering of the periodic assembly of molecules or atoms in thecrystal, the electron density can be reconstructed. Additional phaseinformation must be extracted either from the diffraction data or fromsupplementing diffraction experiments to complete the reconstruction(the phase problem in crystallography). A model is then progressivelybuilt into the experimental electron density, refined against the datato produce an accurate molecular structure.

BTK/TEC Family of Proteins

The TEC family of non-receptor tyrosine kinases is composed of sixproteins designated TEC, EMT (also designated ITK or TSK), BTK(previously designated ATK, BPK or EMB), BMX, TXK (also designated RLK)and Dsrc28C. All members of the family contain SH3 and SH2 domains and,with the exception of TXK and Dsrc28C, also contain pleckstrin homology(PH) and TEC homology (TH) domains in their amino termini. TEC sharesthe highest degree of amino acid homology with BTK (54%). Fouralternatively spliced forms of TEC are expressed broadly in cells ofhematopoietic lineage and hepatocytes. The 72 kDa EMT gene productassociates with CD28 and becomes activated subsequent to CD28 ligation.The 80 kDa BMX protein seems to be expressed at highest levels in theheart. TXK expression is T-cell specific, while expression of theDrosophila TEC homolog, Dsrc28C, is developmentally regulated.

BTK

Bruton's tyrosine kinase (BTK) is a member of the SRC family of proteintyrosine kinases (PTKs), and in particular, the BTK/TEC family. It is acytoplasmic PTK of 659 amino acids (aa) [SEQ ID NO:1, human]. Thenumbering of amino acids for BTK, as used herein, represents thenumbering of the human BTK sequence [SEQ ID NO:1].

The pleckstrin repeat homology (PH) domain (consensus, approximately 100aa) is found in an N-terminal region at amino acid residues A2-R133,followed by a BTK motif (consensus, approximately 36 aa) at amino acidresidues N135-N170. The BTK motif is a zinc-binding motif containingconserved cysteines and a histidine, found C-terminal to the PH domain.The PH/Btk motif module has been called the TEC homology (TH) region.The SH3 domain (consensus, approximately 57 aa) spans the sequence ofamino acid residues A221-I269, while the SH2 homology domain (consensus,approximately 77 aa) spans the sequence of amino acid residuesW281-V377. SH3 (SRC homology 3) domains are often indicative of aprotein involved in signal transduction related to cytoskeletalorganization, which was first described in the SRC cytoplasmic tyrosinekinase. The structure is a partly opened beta barrel. The protein kinasehomology domain (KD, approximately 256 aa) spans amino acid residuesK400-E658, while the ATP binding motif covers spans amino acid residuesL408-V416. The human BTK protein shares amino acid sequence identitywith the SRC family of protein tyrosine kinases: TEC (54% amino acidconservation), BMX (48%), ITK (50%), and TXK (53%).

The BTK protein is approximately 98% conserved across its length (659aa) between the human amino acid sequence [SEQ ID NO:1] and murine (M.musculus) amino acid sequence [SEQ ID NO:2], while it is approximately99% conserved over the kinase domain. The amino acid changes across thekinase domain are conservative (K432R, K625R, T643S). The amino acidsequence of the BTK kinase domain is shown in Table 3, comparing thepublished human [SEQ ID NO:3] and murine [SEQ ID NO:4] kinase domains.

Published BTK reference sequences include:

-   -   Human mRNA: H. sapiens GenBank (GB) access. no. NM_(—)000061        [SEQ ID NO:5]    -   Murine mRNA: M. musculus, GB access. no. NM_(—)013482 [SEQ ID        NO:6]    -   Human protein: H. sapiens, GB access. no. XP_(—)037089 [SEQ ID        NO:7]    -   Human protein: H. sapiens, GB access. no. NP_(—)000052 [SEQ ID        NO:1]

Murine protein: M. musculus, GB access. no. NP_(—)038510 [SEQ ID NO:2].TABLE 3 BTK-Kinase Domain IDPKDLTFLK ELGTGQFGVV KYGKWRGQYD VAIKMIKEGS436 SEQ ID NO:3 ---------- ---------- ---------- ------R--- SEQ ID NO:4MSEDEFIEEA KVMMNLSHEK LVQLYGVCTK QRPIFIITEY 476 ---------- -------------------- ---------- MANGCLLNYL REMRHRFQTQ QLLEMCKDVC EAMEYLESKQ 516---------- ---------- ---------- ---------- FLHRDLAARN CLVNDQGVVKVSDFGLSRYV LDDEYTSSVG 556 ---------- ---------- ---------- ----------SKFPVRWSPP EVLMYSKFSS KSDIWAFGVL MWEIYSLGKM 596 ---------- -------------------- ---------- PYERFTNSET AEHIAQGLRL YRPHLASEKV YTIMYSCWHE 636---------- ---------- --------R- ---------- KADERPTFKI LLSNILDVMDEES   [hBTK-KD] 659 ------S--- ---------- ---   [mBTK-KD]Crystal Structure

The three-dimensional structure of BTK-KD was solved using X-raycrystallography to 2.1 Å resolution. Accordingly, the invention includesa BTK-KD crystal, as well as BTK-KD co-crystallized with a ligand, suchas an inhibitor. The crystal has an orthorhombic space group symmetry,P2₁2₁2₁, and includes orthorhombic-shaped unit cells. Each unit cell hasthe approximate dimensions of: a=45±5 Å, b=104±10 Å, c=116±10 Å,α=β=γ=90°.

BTK-KD crystal structures according to the invention can be resolvedusing the methods described in the Examples below. BTK-KD can becrystallized in a non-complexed form or as a molecular complex with aligand, for example an inhibitor that binds the kinase domain.

X-Ray Crystallographic Analysis

Each of the constituent amino acids of BTK-KD is defined by a set ofstructure coordinates as set forth in Table 1. The term “structurecoordinates” refers to Cartesian coordinates derived from mathematicalequations related to the patterns obtained on diffraction of amonochromatic beam of X-rays by the atoms (scattering centers) of aBTK-KD complex in crystal form. The diffraction data are used tocalculate an electron density map of the repeating unit of the crystal.The electron density maps are then used to establish the positions ofthe individual atoms of the BTK-KD protein or protein/ligand complex.

Slight variations in structure coordinates can be generated bymathematically manipulating the BTK-KD or BTK-KD/ligand structurecoordinates. For example, the structure coordinates as set forth inTable 1 could be manipulated by crystallographic permutations of thestructure coordinates, fractionalization of the structure coordinates,integer additions or subtractions to sets of the structure coordinates,inversion of the structure coordinates, or any combination of the above.Alternatively, modifications in the crystal structure due to mutations,additions, substitutions, and/or deletions of amino acids, or otherchanges in any of the components that make up the crystal, could alsoyield variations in structure coordinates. Such slight variations in theindividual coordinates will have little effect on overall shape. If suchvariations are within an acceptable standard error as compared to theoriginal coordinates, the resulting three-dimensional shape isconsidered to be structurally equivalent. Structural equivalence isdescribed in more detail below.

It should be noted that slight variations in individual structurecoordinates of the BTK-KD would not be expected to significantly alterthe nature of chemical entities Such as ligands that could associatewith a kinase domain binding pocket. In this context, the phrase“associating with” refers to a condition of proximity between a ligand,or portions thereof, and a BTK molecule or portions thereof. Theassociation may be non-covalent, wherein the juxtaposition isenergetically favored by hydrogen bonding, van der Waals forces, orelectrostatic interactions, or it may be covalent.

It will be readily apparent that the numbering of amino acids in otherisoforms of BTK-KD may be different than that of the BTK-KD numberingdisclosed herein.

Structural Features

Resolution of the BTK-KD crystal structure revealed several structuralfeatures of the kinase domain as shown in FIG. 1. The N-terminal lobe 10(amino acid residues I397-E475) contains five strands of anti-parallel βsheets (β1-β5) and one α-helix (αC). The C-terminal lobe 12 (amino acidresidues N479-S659) contains a 4-helix bundle flanked by a shortantiparallel β sheet and four additional helices. The N— and C-lobes areconnected by a linker region 14 (amino acid residues E475-N479) and forma cleft 16 at the ATP binding site.

In contrast to previous predictions, the catalytic cleft of the BTK-KDis not occluded by the A-loop 18 or by any other portion of the KD. TheA-loop 18 in the unphosphorylated BTK-KD structure adopts a uniquenon-inhibitory conformation very similar to the active stateconformation of the A-loop in phosphorylated LCK-KD and hence does notlimit substrate access to the active site (see FIG. 3). Due to theinactive conformation of helix αC 20, however, the enzyme is not in theactive state. Based on the BTK-KD structure here disclosed,transphosphorylation of Y551 appears to trigger an exchange ofhydrogen-bonded pairs from E445/R544 to E445/K430 causing subsequentrelocation of helix αC 20 of the N-lobe 10, thereby inducing BTKactivation (see FIG. 7).

Modeling of the BTK Kinase Domain

Peptide Substrate Binding Site

As shown in the examples, modeling of the crystal structure with apeptide substrate revealed a novel peptide substrate-binding site forBTK-KD.

The peptide substrate-binding site of BTK-KD is a shallow groove 16 Ålong on the protein surface and can accommodate the binding of a portionof the target peptide substrate between the P−2 to P+3 positions. Thefirst half of the binding site is a circular region of 5.8 Å in radius,centered around the P−1 carbonyl group. This region can bind theresidues from P−2 to P, with the side chain groups of the P tyrosine andthe P−1 residue being surrounded by the BTK-KD residues (FIGS. 8 and 9).The remaining atoms of the residues from P−2 to P are mostly exposed tothe solvent environment.

An “enclosed” binding site is generally highly selective for peptidesubstrates whereas an “open” binding site is not. The cAPK crystalstructure revealed an enclosed and negatively charged binding site forthe Arg (P−1) residue (39). The PHK crystal structure demonstrated anenclosed polar binding site for Gln (P−2) formed by the P+1 loop whichcontains a Ser, Thr and Pro (32). In contrast, the BTK complex modelsuggests a half-buried and spacious P−1 binding site like the substratebinding site in IRK (18) (FIG. 9). However, L483 of BTK contributes to apreference for a hydrophobic P−1 residue whereas K1085 in IRK can beassociated with a preference for a negatively charged P−1 residue.

SYK has an asparagine residue corresponding to L483 and preferentiallyselects an aspartic acid residue for the P−1 residue over other types ofresidues (e.g. SYK selects a DYE motif (53)). Overall, the aliphaticportion of R525 and the side chain groups of L483, C481, R487 and M596likely define the P−1 binding subsite. The sequence alignment of theseresidues with those of SRC family PTKs indicates a similar bindingenvironment and therefore a similar recognition pattern for the P−1position. c-SRC, BLK and LYN all preferentially select a leucine orisoleucine as the P−1 residue (54). Similarly, BTK is also likely topreferentially select a leucine or isoleucine as the P−1 residue, whichis consistent with the notion that LY(223)D is a more favored BTKautophosphorylation site than EY(551)TSS (52).

The side chain group of the tyrosine targeted for phosphorylation on thesubstrate peptide is in contact with P560, R525, D521, γ-phosphate andpossibly with the side chain groups of Q412 and K558. The enclosedbinding environment is consistent with a highly discriminating bindingpocket for the P tyrosine.

The Glu (P+1) residue in BTK is close to F559 and interacts with N603.Residues larger than Glu can potentially interact with residue S604.Previous crystal structures for PTK kinase domains have not shown aspecific and enclosed binding site for the P+1 residue, as well as inthis current BTK-KD crystal structure. Therefore the selection for theP+1 residue is unlikely to be strict. However, in light of thedifferences for these three residues at the P+1 position, BTK is moresimilar to SRC family PTKs than it is to IRK or SYK. Residues thatcorrespond to F559, N603 and S604 of BTK are specified in parentheses:IRK (L,N,E), SYK (K,G,S), SRC (F,N,R), LYN (F,N,A), BLK (F,N,P).

Our model is consistent with the phosphoryl transfer mechanism of anin-line nucleophilic attack. Specifically, D445, K430, a Mg ion, and αand β-phosphate groups form a network of electrostatic interactions andhydrogen bonds presumably to align the ATP molecule in a conformationsuitable for reaction (FIG. 8). D539 and the second Mg ion orient theγ-phosphate group for the in-line attack. The model indicates that thehydroxyl group of the P tyrosine forms a hydrogen bond with D521,consistent with the activation mechanism in which the attacking group isdeprotonated by an aspartic acid residue.

Table 2 Amino Acids in the BTK-KD Binding Pocket

Peptide binding loop (S557-P560)

AA interacting with the P−1 residue (R525, L483, C481, R487, M596)

AA interacting with the P residue (P560, R525, D521, Q412, K558)

AA interacting with the P+1 residue (F559 and N603)

AA interacting with Mg⁺⁺ and ATP (D445, K430, and D539)

Three-Dimensional Configurations

X-ray structure coordinates define a unique configuration of points inspace. Those of skill in the art understand that a set of structurecoordinates for a protein or a protein/ligand complex, or a portionthereof, define a relative set of points that, in turn, define aconfiguration in three dimensions. A similar or identical configurationcan be defined by an entirely different set of coordinates, provided thedistances and angles between coordinates remain essentially the same. Inaddition, a scalable configuration of points can be defined byincreasing or decreasing the distances between coordinates by a scalarfactor, while keeping the angles essentially the same.

The present invention thus includes the scalable three-dimensionalconfiguration of points derived from the structure coordinates of atleast a portion of a BTK-kinase domain molecule or molecular complex, aswell as structurally equivalent configurations, as described below. Thescalable three-dimensional configuration includes points derived fromstructure coordinates representing the locations of a plurality of theamino acids defining the BTK-kinase domain ligand binding pocket, aBTK-KD substrate binding pocket, and the BTK-KD ATP binding site.

In one embodiment, the scalable three-dimensional configuration includespoints derived from structure coordinates representing the locations ofthe backbone atoms of a plurality of amino acids defining the BTK-KDligand binding pocket, a BTK-KD substrate binding pocket, and the BTK-KDATP binding site. Alternatively, the scalable three-dimensionalconfiguration includes points derived from structure coordinatesrepresenting the locations of the side chain and the backbone atoms(other than hydrogens) of a plurality of the amino acids defining theBTK-KD ligand binding pocket, a BTK-KD substrate binding pocket, and theBTK-KD ATP binding site, preferably the amino acids listed in Table 2.

Specific amino acids defining a BTK-KD ligand binding pocket includethose amino acids of the peptide binding loop (S557-P560), those aminoacids interacting with the P−1 residue (R525, L483, C481, R487, andM596), those amino acids interacting with the P residue (P560, R525,D521, Q412, and K558), those amino acids interacting with the P+1residue (F559 and N603), and those amino acids interacting with Mg⁺⁺ andATP (D445, K430, and D539).

Likewise, the invention also includes the scalable three-dimensionalconfiguration of points derived from structure coordinates of moleculesor molecular complexes that are structurally homologous to BTK-KD, aswell as structurally equivalent configurations. Structurally homologousmolecules or molecular complexes are defined below. Advantageously,structurally homologous molecules can be identified using the structurecoordinates of BTK-KD according to a method of the invention.

The configurations of points in space derived from structure coordinatesaccording to the invention can be visualized as, for example, aholographic image, a stereodiagram, a model or a computer-displayedimage, and the invention thus includes such images, diagrams or models.

Structurally Equivalent Crystal Structures

Various computational analyses can be used to determine whether amolecule or a ligand binding pocket portion thereof is “structurallyequivalent,” defined in terms of its three-dimensional structure, to allor part of BTK-KD or its ligand binding pockets. Such analyses may becarried out in current software applications, such as the MolecularSimilarity application of QUANTA (Molecular Simulations Inc., San Diego,Calif.), Version 4.1, and as described in the accompanying User's Guide.

The Molecular Similarity application permits comparisons betweendifferent structures, different conformations of the same structure, anddifferent parts of the same structure. The procedure used in MolecularSimilarity to compare structures is divided into four steps: (1) loadthe structures to be compared; (2) define the atom equivalences in thesestructures; (3) perform a fitting operation; and (4) analyze theresults.

One structure is identified as the target (i.e., the fixed structure);all remaining structures are working structures (i.e., movingstructures). Since atom equivalency within QUANTA is defined by userinput, for the purpose of this invention equivalent atoms are defined asprotein backbone atoms (N, Cα, C, and O) for all conserved residuesbetween the two structures being compared. A conserved residue isdefined as a residue that is structurally or functionally equivalent.Only rigid fitting operations are considered.

When a rigid fitting method is used, the working structure is translatedand rotated to obtain an optimum fit with the target structure. Thefitting operation uses an algorithm that computes the optimumtranslation and rotation to be applied to the moving structure, suchthat the root mean square difference of the fit over the specified pairsof equivalent atom is an absolute minimum. This number, given inangstroms, is reported by QUANTA.

For the purpose of this invention, any molecule or molecular complex orligand binding pocket thereof, or any portion thereof, that has a rootmean square deviation of conserved residue backbone atoms (N, Cα, C, O)of less than about 0.70 Å, when superimposed on the relevant backboneatoms is considered “structurally equivalent” to the reference molecule.That is to say, the crystal structures of those portions of the twomolecules are substantially identical, within acceptable error. Forexample, structurally equivalent molecules or molecular complexes arethose that are defined by the entire set of structure coordinates listedin Table 1 ± a root mean square deviation from the conserved backboneatoms of those amino acids of not more than 0.70 Å.

The term “root mean square deviation” means the square root of thearithmetic mean of the squares of the deviations. It is a way to expressthe deviation or variation from a trend or object. For purposes of thisinvention, the “root mean square deviation” defines the variation in thebackbone of a protein from the backbone of BTK-KD or a ligand bindingpocket portion thereof, as defined by the structure coordinates ofBTK-KD described herein.

Machine-Readable Storage Media

Transformation of the structure coordinates for all or a portion ofBTK-KD or the BTK-KD/ligand complex or one of its ligand bindingpockets, for structurally homologous molecules as defined below, or forthe structural equivalents of any of these molecules or molecularcomplexes as defined above, into three-dimensional graphicalrepresentations of the molecule or complex can be conveniently achievedthrough the use of commercially-available software.

The invention thus further provides a machine-readable storage mediumincluding a data storage material encoded with machine-readable datawherein a machine programmed with instructions for using said datadisplays a graphical three-dimensional representation of any of themolecule or molecular complexes of this invention that have beendescribed above. In a preferred embodiment, the machine-readable datastorage medium includes a data storage material encoded withmachine-readable data wherein a machine programmed with instructions forusing said data displays a graphical three-dimensional representation ofa molecule or molecular complex including all or any parts of a BTK-KDligand binding pocket or a BTK-KD-like ligand binding pocket, as definedabove. In another preferred embodiment, the machine-readable datastorage medium includes a data storage material encoded with machinereadable data wherein a machine programmed with instructions for usingsaid data displays a graphical three-dimensional representation of amolecule or molecular complex±a root mean square deviation from theatoms of said amino acids of not more than 0.05 Å.

In an alternative embodiment, the machine-readable data storage mediumincludes a data storage material encoded with a first set of machinereadable data which includes the Fourier transform of structurecoordinates, and wherein a machine programmed with instructions forusing said data is combined with a second set of machine readable dataincluding the X-ray diffraction pattern of a molecule or molecularcomplex to determine at least a portion of the structure coordinatescorresponding to the second set of machine readable data.

For example, a system for reading a data storage medium may include acomputer including a central processing unit (“CPU”), a working memorywhich may be, e.g., RAM (random access memory) or “core” memory, massstorage memory (such as one or more disk drives or CD-ROM drives), oneor more display devices (e.g., cathode-ray tube (“CRT”) displays, lightemitting diode (“LED”) displays, liquid crystal displays (“LCDs”),electroluminescent displays, vacuum fluorescent displays, field emissiondisplays (“FEDs”), plasma displays, projection panels, etc.), one ormore user input devices (e.g., keyboards, microphones, mice, trackballs, touch pads, etc.), one or more input lines, and one or moreoutput lines, all of which are interconnected by a conventionalbidirectional system bus. The system may be a stand-alone computer, ormay be networked (e.g., through local area networks, wide area networks,intranets, extranets, or the internet) to other systems (e.g.,computers, hosts, servers, etc.). The system may also include additionalcomputer controlled devices such as consumer electronics and appliances.

Input hardware may be coupled to the computer by input lines and may beimplemented in a variety of ways. Machine-readable data of thisinvention may be inputted via the use of a modem or modems connected bya telephone line or dedicated data line. Alternatively or additionally,the input hardware may include CD-ROM drives or disk drives. Inconjunction with a display terminal, a keyboard may also be used as aninput device.

Output hardware may be coupled to the computer by output lines and maysimilarly be implemented by conventional devices. By way of example, theoutput hardware may include a display device for displaying a graphicalrepresentation of a binding pocket of this invention using a programsuch as QUANTA as described herein. Output hardware might also include aprinter, so that hard copy output may be produced, or a disk drive, tostore system output for later use.

In operation, a CPU coordinates the use of the various input and outputdevices, coordinates data accesses from mass storage devices, accessesto and from working memory, and determines the sequence of dataprocessing steps. A number of programs may be used to process themachine-readable data of this invention. Such programs are discussed inreference to the computational methods of drug discovery as describedherein. References to components of the hardware system are included asappropriate throughout the following description of the data storagemedium.

Machine-readable storage devices useful in the present inventioninclude, but are not limited to, magnetic devices, electrical devices,optical devices, and combinations thereof. Examples of such data storagedevices include, but are not limited to, hard disk devices, CD devices,digital video disk devices, floppy disk devices, removable hard diskdevices, magneto-optic disk devices, magnetic tape devices, flash memorydevices, bubble memory devices, holographic storage devices, and anyother mass storage peripheral device. It should be understood that thesestorage devices include necessary hardware (e.g., drives, controllers,power supplies, etc.) as well as any necessary media (e.g., disks, flashcards, etc.) to enable the storage of data.

Structurally Homologous Molecules, Molecular Complexes, and CrystalStructures

Structure coordinates can be used to aid in obtaining structuralinformation about another crystallized molecule or molecular complex.The method of the invention allows determination of at least a portionof the three-dimensional structure of molecules or molecular complexesthat contain one or more structural features that are similar tostructural features of BTK-KD. These molecules are referred to herein as“structurally homologous” to BTK-KD. Similar structural features caninclude, for example, regions of amino acid identity, conserved activesite or binding site motifs, and similarly arranged secondary structuralelements (e.g., α helices and β sheets). Optionally, structural homologyis determined by aligning the residues of the two amino acid sequencesto optimize the number of identical amino acids along the lengths oftheir sequences; gaps in either or both sequences are permitted inmaking the alignment in order to optimize the number of identical aminoacids, although the amino acids in each sequence must nonetheless remainin their proper order. Two amino acid sequences are compared using theBLASTP program, version 2.0.9, of the BLAST 2 search algorithm, asdescribed by Tatusova et al. (56), and available at URLhttp://www.ncbi.nlm.nih.gov/BLAST/. Preferably, the default values forall BLAST 2 search parameters are used, including matrix=BLOSUM62; opengap penalty=11, extension gap penalty=1, gap x_dropoff=50, expect=10,wordsize=3, and filter on. In the comparison of two amino acid sequencesusing the BLAST search algorithm, structural similarity is referred toas “identity.” Preferably, a structurally homologous molecule is aprotein that has an amino acid sequence sharing at least 65% identitywith a native or recombinant amino acid sequence of BTK-KD (for example,SEQ ID NO:3). More preferably, a protein that is structurally homologousto BTK-KD includes at least one contiguous stretch of at least 50 aminoacids that shares at least 80% amino acid sequence identity with theanalogous portion of the native or recombinant BTK-KD (for example, SEQID NO:3). Methods for generating structural information about thestructurally homologous molecule or molecular complex are well known andinclude, for example, molecular replacement techniques.

Therefore, in another embodiment this invention provides a method ofutilizing molecular replacement to obtain structural information about amolecule or molecular complex whose structure is unknown including thesteps of:

-   -   (a) crystallizing the molecule or molecular complex of unknown        structure;    -   (b) generating an X-ray diffraction pattern from said        crystallized molecule or molecular complex; and    -   (c) applying at least a portion of the structure to the X-ray        diffraction pattern to generate a three-dimensional electron        density map of the molecule or molecular complex whose structure        is unknown.

By using molecular replacement, all or part of the structure coordinatesof BTK-KD or the BTK-KD/ligand complex as provided by this invention canbe used to determine the unsolved structure of a crystallized moleculeor molecular complex more quickly and efficiently than attempting todetermine such information ab initio.

Molecular replacement can provide an accurate estimation of the phasesfor an unknown structure. Phases are one factor in equations that areused to solve crystal structures, and this factor cannot be determineddirectly. Obtaining accurate values for the phases, by methods otherthan molecular replacement, can be a time-consuming process thatinvolves iterative cycles of approximations and refinements and greatlyhinders the solution of crystal structures. However, when the crystalstructure of a protein containing at least a structurally homologousportion has been solved, the phases from the known structure provide asatisfactory estimate of the phases for the unknown structure.

Thus, this method involves generating a preliminary model of a moleculeor molecular complex whose structure coordinates are unknown, byorienting and positioning the relevant portion of BTK-KD or theBTK-KD/ligand complex within the unit cell of the crystal of the unknownmolecule or molecular complex. This orientation or positioning isconducted so as best to account for the observed X-ray diffractionpattern of the crystal of the molecule or molecular complex whosestructure is unknown. Phases can then be calculated from this model andcombined with the observed X-ray diffraction pattern amplitudes togenerate an electron density map of the structure. This map, in turn,can be subjected to established and well-known model building andstructure refinement techniques to provide a final, accurate structureof the unknown crystallized molecule or molecular complex (31).

Structural information about a portion of any crystallized molecule ormolecular complex that is sufficiently structurally homologous to aportion of BTK-KD can be resolved by this method in addition to amolecule that shares one or more structural features with BTK-KD asdescribed above, a molecule that has similar bioactivity, such as thesame catalytic activity, substrate specificity or ligand bindingactivity as BTK-KD, may also be sufficiently structurally homologous toBTK-KD to permit use of the structure coordinates of BTK-KD to solve itscrystal structure.

In one embodiment of the invention, the method of molecular replacementis utilized to obtain structural information about a molecule ormolecular complex, wherein the molecule or molecular complex includes atleast one BTK-KD subunit or homolog. A “subunit” of BTK-KD is a BTK-KDmolecule that has been truncated at the N-terminus or the C-terminus, orboth. In the context of the present invention, a “homolog” of BTK-KD isa protein that contains one or more amino acid substitutions, deletions,additions, or rearrangements with respect to the amino acid sequence ofBTK-KD (SEQ ID NO:3), but that, when folded into its nativeconformation, exhibits or is reasonably expected to exhibit at least aportion of the tertiary (three-dimensional) structure of BTK-KD. Forexample, structurally homologous molecules can contain deletions oradditions of one or more contiguous or noncontiguous amino acids, suchas a loop or a domain. Structurally homologous molecules also include“modified” BTK-KD molecules that have been chemically or enzymaticallyderivatized at one or more constituent amino acid, including side chainmodifications, backbone modifications, and N— and C-terminalmodifications including acetylation, hydroxylation, methylation,amidation, and the attachment of carbohydrate or lipid moieties,cofactors, and the like.

A heavy atom derivative of BTK-KD is also included as a BTK-KD homolog.The term “heavy atom derivative” refers to derivatives of BTK-KDproduced by chemically modifying a crystal of BTK-KD. In practice, acrystal is soaked in a solution containing heavy metal atom salts, ororganometallic compounds, e.g., lead chloride, gold thiomalate,thiomersal or uranyl acetate, which can diffuse through the crystal andbind to the surface of the protein. The location(s) of the bound heavymetal atom(s) can be determined by X-ray diffraction analysis of thesoaked crystal. This information, in turn, is used to generate the phaseinformation used to construct three-dimensional structure of the protein(3).

The structure coordinates of BTK-KD as provided by this invention areparticularly useful in solving the structure of BTK-KD mutants. Mutantsmay be prepared, for example, by expression of BTK-KD cDNA previouslyaltered in its coding sequence by oligonucleotide-directed mutagenesis.Mutants may also be generated by site-specific incorporation ofunnatural amino acids into BTK-KD proteins using the generalbiosynthetic method of Noren et al. (45). In this method, the codonencoding the amino acid of interest in wild-type BTK-KD is replaced by a“blank” nonsense codon, TAG, using oligonucleotide-directed mutagenesis.A suppressor tRNA directed against this codon is then chemicallyaminoacylated in vitro with the desired unnatural amino acid. Theaminoacylated tRNA is then added to an in vitro translation system toyield a mutant BTK-KD with the site-specific incorporated unnaturalamino acid.

The structure coordinates of BTK-KD are also particularly useful tosolve or model the structure of crystals of BTK-KD, BTK-KD mutants, orBTK-KD homologs co-complexed with a variety of ligands. This approachenables the determination of the optimal sites for interaction betweenligand entities, including candidate BTK-KD ligands and BTK-KD.Potential sites for modification within the various binding sites of themolecule can also be identified. This information provides an additionaltool for determining more efficient binding interactions, for example,increased hydrophobic interactions, between BTK-KD and a ligand. Forexample, high-resolution X-ray diffraction data collected from crystalsexposed to different types of solvent allows the determination of whereeach type of solvent molecule resides. Small molecules that bind tightlyto those sites can then be designed and synthesized and tested for theirBTK inhibition activity.

All of the complexes referred to above may be studied using well-knownX-ray diffraction techniques and may be refined versus 1.5-3.5 Åresolution X-ray data to an R-factor of about 0.30 or less usingcomputer software, such as X-PLOR (Yale University, distributed byMolecular Simulations, Inc.; see, e.g., (3) and (37)). This informationmay thus be used to optimize known BTK modulators, and more importantly,to design new BTK modulators.

The invention also includes the unique three-dimensional configurationdefined by a set of points defined by the structure coordinates for amolecule or molecular complex structurally homologous to BTK-KD asdetermined using the method of the present invention, structurallyequivalent configurations, and magnetic storage media including such setof structure coordinates.

Further, the invention includes structurally homologous molecules asidentified using the method of the invention.

Homology Modeling

Using homology modeling, a computer model of a BTK-KD homolog can bebuilt or refined without crystallizing the homolog. First, a preliminarymodel of the BTK-KD homolog is created by sequence alignment withBTK-KD, secondary structure prediction, the screening of structurallibraries, or any combination of those techniques. Computationalsoftware may be used to carry out the sequence alignments and thesecondary structure predictions. Structural incoherences, e.g.,structural fragments around insertions and deletions, can be modeled byscreening a structural library for peptides of the desired length andwith a suitable conformation. For prediction of the side chainconformation, a side chain rotamer library may be employed. If theBTK-KD homolog has been crystallized, the final homology model can beused to solve the crystal structure of the homolog by molecularreplacement, as described above. Next, the preliminary model issubjected to energy minimization to yield an energy-minimized model. Theenergy-minimized model may contain regions where stereochemistryrestraints are violated, in which case such regions are remodeled toobtain a final homology model. The homology model is positionedaccording to the results of molecular replacement, and subjected tofurther refinement including molecular dynamics calculations.

Specific Modulators of BTK That Interact with BTK-KD

Specific modulators of BTK include the inhibitor LFM-A13, a leflunomidemetabolite, which docks within the ATP-binding pocket of the kinasedomain (62). Using the IRK ternary structure as a template, a peptidehexamer derived from an ITAM motif of Igα (NLY*EGL), a known physiologicsubstrate of BTK, has been modeled into the peptide binding site ofBTK-KD (33). See also U.S. Pat. No. 6,294,575 (issued Sep. 25, 2001) andU.S. Pat. No. 6,303,652 (issued Oct. 16, 2001). Other inhibitors of BTKinclude calanolide derivatives (U.S. Pat. No. 6,306,897, issued Oct. 23,2001) and coumarin derivatives (U.S. Pat. No. 6,294,575, issued Sep. 25,2001).

Identification of Modulators of BTK

Potent and selective ligands that modulate BTK activity (inhibitors andstimulators) are identified using the three-dimensional homology modelof the BTK kinase domain produced using the coordinates of Table 1.Using this model, ligands that interact with the kinase domain areidentified, and the result of the interactions is modeled. Agentsidentified as candidate molecules for modulating the activity of BTK arethen screened against known bioassays. For example, the ability of anagent to inhibit the anti-apoptotic effects of BTK can be measured usingassays known in the art, or for example, the assays disclosed in theExamples below. Using the modeling information and the assays described,one can identify agents that possess BTK-modulating properties.

Active Site and Other Structural Features

Applicants' invention provides information about the shape and structureof the substrate binding pocket of BTK-KD in the presence of amodulator.

Binding pockets are of significant utility in fields such as drugdiscovery. The association of natural ligands or substrates with thebinding pockets of their corresponding receptors or enzymes is the basisof many biological mechanisms of action. Similarly, many drugs exerttheir biological effects through association with the binding pockets ofreceptors and enzymes. Such associations may occur with all or any partof the binding pocket. An understanding of such associations helps leadto the design of drugs having more favorable associations with theirtarget, and thus improved biological effects. Therefore, thisinformation is valuable in designing potential modulators of BTK-KDligand binding pockets, as discussed in more detail below.

The term “binding pocket,” as used herein, refers to a region of amolecule or molecular complex that, as a result of its shape, favorablyassociates with a ligand. Thus, a binding pocket may include or consistof features such as cavities, surfaces, or interfaces between domains.Ligands that may associate with a binding pocket include, but are notlimited to, cofactors, substrates, inhibitors, agonists, andantagonists.

The amino acid constituents of a BTK-KD ligand binding pocket as definedherein are positioned in three dimensions. In one aspect, the structurecoordinates defining a ligand binding pocket of BTK-KD include structurecoordinates of all atoms in the constituent amino acids; in anotheraspect, the structure coordinates of a ligand binding pocket includestructure coordinates of just the backbone atoms of the constituentatoms.

The ligand binding pocket of BTK-KD for example, includes the aminoacids listed in Table 2. Alternatively, the ligand binding pocket of BTKmay be defined by those amino acids whose backbone atoms are situatedwithin about 5 Å of one or more constituent atoms of a bound substrateor ligand. In yet another alternative, the ligand binding pocket can bedefined by those amino acids whose backbone atoms are situated within asphere centered on the coordinates representing the alpha carbon atom ofamino acid residue D521, the sphere having a radius of about 5-6 Å, forexample 5.8 Å.

The term “BTK-KD ligand binding pocket” includes all or a portion of amolecule or molecular complex whose shape is sufficiently similar to atleast a portion of a ligand binding pocket of BTK-KD as to be expectedto bind related structural analogues. A structurally equivalent ligandbinding pocket is defined by a root mean square deviation from thestructure coordinates of the backbone atoms of the amino acids that makeup ligand binding pockets in BTK-KD of at most about 0.70 Å. Thiscalculation is described below.

Accordingly, the invention provides molecules or molecular complexesincluding a BTK-KD ligand binding pocket or BTK-KD ligand bindingpocket, as defined by the sets of structure coordinates described above.

Rational Drug Design

Computational techniques can be used to screen, identify, select and/ordesign ligands capable of associating with BTK-KD or structurallyhomologous molecules. Knowledge of the structure coordinates for BTK-KDpermits the design and/or identification of synthetic compounds and/orother molecules that have a shape complementary to the conformation ofthe BTK-KD binding site. In particular, computational techniques can beused to identify or design ligands, such as inhibitors, agonists andantagonists, that associate with a BTK-KD ligand binding pocket or aBTK-KD ligand binding pocket. Inhibitors may bind to or interfere withall or a portion of an active site of BTK-KD, and can be competitive,non-competitive, or uncompetitive inhibitors. Once identified andscreened for biological activity, these inhibitors, agonists, and/orantagonists may be used therapeutically or prophylactically, forexample, to block BTK-KD activity and thus prevent the onset and/orfurther progression of diseases associated with BTK activity, such asXLA, and B-cell disorders, such as leukemia. Structure-activity data foranalogues of ligands that bind to or interfere with BTK-KD ligandbinding pockets can also be obtained computationally.

Data stored in a machine-readable storage medium that is capable ofdisplaying a graphical three-dimensional representation of the structureof BTK-KD or a structurally homologous molecule, as identified herein,or portions thereof may thus be advantageously used for drug discovery.The structure coordinates of the ligand are used to generate athree-dimensional image that can be computationally fit to thethree-dimensional image of BTK-KD or a structurally homologous molecule.The three-dimensional molecular structure encoded by the data in thedata storage medium can then be computationally evaluated for itsability to associate with ligands. When the molecular structures encodedby the data is displayed in a graphical three-dimensional representationon a computer screen, the protein structure can also be visuallyinspected for potential association with ligands.

One embodiment of the method of drug design involves evaluating thepotential association of a known ligand with BTK-KD or a structurallyhomologous molecule, particularly with a BTK-KD ligand binding pocket.The method of drug design thus includes computationally evaluating thepotential of a selected ligand to associate with any of the molecules ormolecular complexes set forth above. This method includes the steps of:(a) employing computational means to perform a fitting operation betweenthe selected ligand and a ligand binding pocket or a pocket nearby theligand binding pocket of the molecule or molecular complex; and (b)analyzing the results of said fitting operation to quantify theassociation between the ligand and the ligand binding pocket.

In another embodiment, the method of drug design involvescomputer-assisted design of ligand that associate with BTK-KD, itshomologs, or portions thereof. Ligands can be designed in a step-wisefashion, one fragment at a time, or may be designed as a whole or denovo.

To be a viable drug candidate, the ligand identified or designedaccording to the method must be capable of structurally associating withat least part of a BTK-KD ligand binding pocket, and must be able,sterically and energetically, to assume a conformation that allows it toassociate with the BTK-KD ligand binding pocket. Non-covalent molecularinteractions important in this association include hydrogen bonding, vander Waals interactions, hydrophobic interactions, and electrostaticinteractions. Conformational considerations include the overallthree-dimensional structure and orientation of the ligand in relation tothe ligand binding pocket, and the spacing between various functionalgroups of a ligand that directly interact with the BTK-KD ligand bindingpocket or homologs thereof.

Optionally, the potential binding of a ligand to a BTK-KD ligand bindingpocket is analyzed using computer modeling techniques prior to theactual synthesis and testing of the ligand. If these computationalexperiments suggest insufficient interaction and association between itand the BTK-KD ligand binding pocket, testing of the ligand is obviated.However, if computer modeling indicates a strong interaction, themolecule may then be synthesized and tested for its ability to bind toor interfere with a BTK-KD ligand binding pocket. Binding assays todetermine if a compound actually modulates with BTK activity can also beperformed and are well known in the art.

Several methods can be used to screen ligands or fragments for theability to associate with a BTK-KD ligand binding pocket. This processmay begin by visual inspection of, for example, a BTK-KD ligand bindingpocket on the computer screen based on the BTK-KD structure coordinatesor other coordinates which define a similar shape generated from themachine-readable storage medium. Selected ligands may then be positionedin a variety of orientations, or docked, within the ligand bindingpocket. Docking may be accomplished using software such as QUANTA andSYBYL, followed by energy minimization and molecular dynamics withstandard molecular mechanics forcefields, such as CHARMM and AMBER.

Specialized computer programs may also assist in the process ofselecting ligands. Examples include GRID (17); MCSS (38) available fromMolecular Simulations, San Diego, Calif.); AUTODOCK (13) available fromScripps Research Institute, La Jolla, Calif.); and DOCK (29) availablefrom University of California, San Francisco, Calif.).

BTK-KD binding ligands can be designed to fit a BTK-KD binding site,optionally as defined by the binding of a known modulator. There aremany ligand design methods including, without limitation, LUDI (4);available from Molecular Simulations Inc., San Diego, Calif.); LEGEND(42); available from Molecular Simulations Inc., San Diego, Calif.);LeapFrog (available from Tripos Associates, St. Louis, Mo.); and SPROUT(10); available from the University of Leeds, UK).

Once a compound has been designed or selected by the above methods, theefficiency with which that ligand may bind to or interfere with a BTK-KDligand binding pocket may be tested and optimized by computationalevaluation. For example, an effective BTK-KD ligand binding pocketligand should preferably demonstrate a relatively small difference inenergy between its bound and free states (i.e., a small deformationenergy of binding). Thus, an efficient BTK-KD ligand binding pocketligands should preferably be designed with a deformation energy ofbinding of not greater than about 10 kcal/mole; more preferably, notgreater than 7 kcal/mole. BTK-KD ligand binding pocket ligands mayinteract with the ligand binding pocket in more than one conformationthat is similar in overall binding energy. In those cases, thedeformation energy of binding is taken to be the difference between thefree energy of the ligand and the average energy of the conformationsobserved when the ligand binds to the protein.

A ligand designed or selected as binding to or interfering with a BTK-KDligand binding pocket may be further computationally optimized so thatin its bound state it would preferably lack repulsive electrostaticinteraction with the target enzyme and with the surrounding watermolecules. Such non-complementary electrostatic interactions includerepulsive charge-charge, dipole-dipole, and charge-dipole interactions.

Specific computer software is available to evaluate compound deformationenergy and electrostatic interactions. Examples of programs designed forsuch uses include: Gaussian 94, revision C (M. J. Frisch, Gaussian,Inc., Pittsburgh, Pa.); AMBER, version 4.1 (P. A. Kollman, University ofCalifornia at San Francisco,); QUANTA/CHARMM (Molecular Simulations,Inc., San Diego, Calif.); Insight II/Discover (Molecular Simulations,Inc., San Diego, Calif.); DelPhi (Molecular Simulations, Inc., SanDiego, Calif.); and AMSOL (Quantum Chemistry Program Exchange, IndianaUniversity). These programs can be implemented, for instance, using aSilicon Graphics workstation, such as an Indigo2 with IMPACT graphics.Other hardware systems and software packages will be known to thoseskilled in the art.

Another approach encompassed by this invention is the computationalscreening of small molecule databases for ligands or compounds that canbind in whole, or in part, to a BTK-KD ligand binding pocket. In thisscreening, the quality of fit of such ligands to the binding site may bejudged either by shape complementarity or by estimated interactionenergy (35).

A compound that is identified or designed as a result of any of thesemethods can be obtained (or synthesized) and tested for its biologicalactivity, e.g., inhibition of BTK activity.

Therapeutic Use

B-cells and B-cell precursors expressing BTK have been implicated in thepathology of a number of diseases and conditions including B-cellmalignancies (e.g., acute lymphoblastic leukemia, chronic lymphocyticleukemia, non-Hodgkin's lymphoma, EBV lymphomia, and myeloma), othercancers, B-cell lymphoproliferative disorders/autoimmune diseases (e.g.,lupus, Crohn's disease, and chronic or graft-versus-host disease), mastcell disorders (e.g., allergies, and anaphylactic shock), conditionsthat relate to improper platelet aggregation, and rejection ofxenotransplants (e.g., pig to human heart transplants).

BTK inhibitors designed or identified using the crystal structure of theBTK-KD can be used to treat disorders where inhibition or prevention ofa TEC family kinase is indicated. For cancer cells expressing BTK, e.g.leukemia and lymphoma cells, BTK inhibitors may kill or chemosensitize.In autoimmune disease such as Lupus or autoimmune diabetes, BTKinhibitors may halt antibody production. In graft-versus-host diseaseafter bone marrow transplantation, these inhibitors may abrogate theB-lymphocyte mediated component of the graft rejection. Similarlydesigned inhibitors may be useful in organ transplantation, especiallyin patients with chronic rejection of organs such as liver, pancreas,and kidney. And in xenotransplantation, in which rejection is mediatedby B-cells, these inhibitors may also be useful. BTK inhibitors mayprevent the formation of blood clots in thromboplilia (a tendency todevelop blot clots). In allergy, anaphlaxis, and asthma, the goal wouldbe to inhibit the mast cell response.

BTK inhibitors are also useful as chemosensitizing agents, useful incombination with other chemotherapeutic drugs, in particular, drugs thatinduce apoptosis. Examples of other chemotherapeutic drugs that can beused in combination with chemosensitizing BTK inhibitors includetopoisomerase I inhibitors (e.g., camptothesin or topotecan),topoisomerase II inhibitors (e.g., daunomycin and etoposide), alkylatingagents (e.g., cyclophosphamide, melphalan and BCNU), tubulin-directedagents (e.g., taxol and vinblastine), and biological agents (e.g.,antibodies such as anti CD20 antibody, IDEC 8, immunotoxins, andcytokines).

BTK stimulators designed or identified using the crystal structure ofthe BTK-KD can be used to treat disorders, where induction of BTKactivity is indicated, for example, in the treatment of B-cell disordersor immunodeficiencies, such as XLA, and in particular to stimulatedifferentiation of B-cells. In patients with infectious diseases, thegoal would be to enhance natural B-cell mediated immunity during thecourse of infection. In cancer patients, BTK stimulators may boost theimmune system by increasing the ability of B-cells to produce antibodiesand thus the state of alertness of the B-cell (humoral) compartment ofthe immune system. By boosting the B-cell immune response throughstimulation of BTK, the success of vaccination may be enhanced.

The invention is illustrated by the following non-limiting Examples.

EXAMPLES Example 1 Subcloning and Expression of the Murine BTK KinaseDomain

Subcloning

The murine BTK kinase domain (BTK-KD, residues I397 to S659) wasamplified from the wild-type BTK gene (GB access. no. NM_(—)013482) byPCR. The PCR product was cloned into the pCR2.1 vector (BTK-KD/pCR2.1)using the Invitrogen TA cloning procedure (Invitrogen LTI, Carlsbad,Calif.). Subsequently, the BTK-KD/pCR2.1 was completely digested withNcoI and HindIII. The fragment was purified and ligated to the pFastBacHTb donor plasmid (Invitrogen LTI), generating pFastBac HTb/BTK-KD. Thevector construct was then used to produce a baculoviral stock using theBac-to-Bac baculovirus expression system (Invitrogen LTI). Theexpression was checked by the anti-BTK antibody, C-20 (Santa CruzBiotechnology, Santa Cruz, Calif.) and by anti-6-Histidine antibody.

Expression

Spodoptera frugiperda (Sf9) cells were maintained at 27° C. in Sf-900 IISFM (GibcoBRL) containing 50 units/ml penicillin and 50 μg/mlstreptomycin. Cells at a density of 1-1.5×10⁶ cells/mil were infectedwith the recombinant BTK-KD-containing virus at a 5-fold multiplicity ofinfection. After 54 hours post-infection, the cells were harvested bycentrifugation at 800 g for 10 minutes, washed with phosphate-bufferedsaline, then flash-frozen in a dry ice/ethanol bath and finally storedat −80° C.

Purification

The frozen cells were thawed in a 37° C. water bath, resuspended in 5volumes of lysis buffer (50 mM Tris/HCl pH=8.5, 100 mM KCl, 2mM DTT and1 mM PMSF), and then sonicated for 1 minute and centrifuged at 30,000 gfor 45 minutes. The supernatant was loaded onto a Ni²⁺ column,equilibrated with a solution containing 10 mM Tris/HCl buffer, pH=8.0,500 mM KCl and 0.5 mM DTT at a flow rate of 0.75 ml/min. The column waswashed with 20-bed volumes of buffer A (20 mM Tris/HCl, pH=8.5, 500 mMKCl, 15-20 mM imidazole and 2 mM DTT), and then washed with 10-bedvolumes of buffer B (20 mM Tris/HCl, pH=8.5, 1 M KCl and 2 mM DTT).Afterwards, it was washed again with 2-bed volumes of buffer A. Theprotein was eluted with buffer C (20 mM Tris/HCl, 100 mM KCl, 150 mMimidazole and 2 mM DTT).

Fractions that contained BTK-KD were pooled and dialyzed against asolution containing 20 mM Tris/HCl, 100 mM NaCl, 2 mM DTT and 1 mM EDTA.The protein was concentrated to 5 mg/ml, digested with rTEV protease (6μg/mg) at 4° C. overnight to remove the poly-His tag, and concentratedto 3 ml. Concentrated protein was then loaded onto a Superdex 200 column(26×60 cm, Amersham pharmacia Biotech AB, Uppsala, Sweden), equilibratedwith a solution of 20 mM Tris/HCl, pH=8.5, 50 mM NaCl and 2 mM DTT. Thepurified BTK-KD fraction was concentrated to 12 mg/ml forcrystallization.

The purity of the BTK-KD polypeptide was confirmed by PAGE analysis withCoomassie blue staining, and by Western blot analysis probed with ananti-BMK antibody. Western blot analysis probed with ananti-phosphotyrosine antibody indicated that the purified BTK-KD was notphosphorylated. In vitro kinase assays indicated that thenonphosphorylated BTK-KD was able to be phosphorylated and to transferthe phosphate group to a GST fusion protein of Igα in a 5 minute kinasereaction.

Materials and Methods: Immunoprecipitation and Kinase Assays ofRecombinant Proteins from Insect Cells

Immunoprecipitations, immune-complex protein kinase assays, andimmunoblotting using the ECL chemiluminescence detection system(Amersham Life Sciences, Oakbrook, Ill.) were conducted as describedpreviously (33, 64, 12, 60). Following electrophoresis, kinase gels weredried onto Whatman 3M filter paper and subjected to phosphoimaging on aMolecular Imager (Bio-Rad, Hercules, Calif.) as well as autoradiographyon film. Similarly, all chemiluminescent BTK Western blots weresubjected to three dimensional densitometric scanning using theMolecular Imager and Imaging Densitometer with MolecularAnalyst/Macintosh version 2.1 software following the specifications ofthe manufacturer (Bio-Rad). For each compound concentration, a BTKkinase activity index was determined by comparing the ratios of thekinase activity in phosphorimager units (PIU) and density of the proteinbands in densitometric scanning units (DSU) to those of the baselinesample and using the formula: Activity Index=[PIU of kinase band/DSU ofBTK protein band]_(test sample):[PIU of kinase band/DSU of BTK proteinband]_(baseline control sample). GST-Igα was sometimes used as anexogenous substrate for BTK immune-complex protein kinase assays, asdescribed (33). Horseradish peroxidase-conjugated sheep anti-mouse,donkey anti-rabbit secondary antibodies and ECL reagents were purchasedfrom Amersham.

Sf21 cells were infected with a baculovirus expression vector forfull-length BTK, as described briefly below. Cells were harvested, lysed(10 mM Tris pH7.6, 100 mM NaCl, 1% Nonidet P-40, 10% glycerol, 50 mMNaF, 100 mM Na₃VO₄, 50 μg/ml phenylmethylsulfonyl fluoride (PMSF), 10μg/ml aprotonin, μg/ml leupeptin), and the kinases wereimmunoprecipitated from the lysates, as reported (64). The antibody usedfor immunoprecipitation of BTK from insect cells was polyclonal rabbitanti-BTK serum (33). Kinase assays were performed following a 1 hourexposure of the immunoprecipitated tyrosine kinases to the testcompounds, as described below (33, 60). The immunoprecipitates weresubjected to Western blot analysis as previously described (64).

Example 2 Crystallization of the BTK Kinase Domain

The pure protein at a concentration of 2 mg/ml was used for dynamiclight scattering studies. The data indicated the BTK-KD sample wasmono-disperse immediately after purification, but became poly-dispersewithin 30 minutes at room temperature. Therefore, all crystallizationwas performed at 4° C.

Crystallization

The purified BTK-KD was crystallized at 4° C. using the hanging dropmethod, with 2 μl of protein and 1 μl of reservoir solution in the dropand equilibrated with 600 μl of reservoir solution containing 20%PEG-1000, 100 mM Tris/HCl, pH=8.0 and 1 mM DTT using VDP trays (HamptonResearch, Laguna Niguel, Calif.). The crystals began to appear withinone week, which reached a full size of 200×200×200 μm in 2 to 3 weeks.

Example 3 Structural Analysis of the BTK Kinase Domain Crystal

Data Collection

Crystals were analyzed using a CCD detector and high-intensitysynchrotron radiation source at the Cornell High Energy SynchrotronSource (CHESS, F2 Station, Cornell University, Ithaca, N.Y.). Datacollected include two native data sets (Nat 1 and Nat 2) and twoheavy-atom derivative data sets (EMP and AU). Data statistics aresummarized in Table 4. One crystal was soaked for 24 hours in 5 mMK₂Au(CN)₂ or (AU), and another crystal was soaked in 0.1 mM ethylenemercury phosphate (EMP). All crystals were flash-cooled and kept inliquid nitrogen with 30% PEG-1000 solution as a natural cryoprotectant.All data sets were processed using DENZO and SCALEPACK programs (40),and analyzed and scaled using the CCP4 program suite (7). The datashowed that the BTK-KD crystal belongs to the P2₁2₁2₁ space group withcell dimensions a=45 Å, b=104 Å and c=116 Å.

Molecular Replacement

The native data set was analyzed for molecular replacement solutionusing AMoRe (7, 40). The self-rotation function calculation failed toindicate any non-crystallographic symmetry (NCS), suggesting that thereis either no NCS or that the NCS axis is too close to thecrystallographic axis (in fact, the 2-fold axis was later found to beclose to the X axis).

The search models of polyglycine and polyalanine from crystal structuresof kinase domains, including LCK, IRK, FGFRK, HCK and SRC as well as thehomology BTK kinase domain model (U.S. Pat. No. 6,294,575, issued Sep.25, 2001), revealed a clear solution in rotation function searches witha top peak 10-25% higher than the second solution, depending on thesearch model used in the calculation. The search model of LCK with theactivation loop yielded better results, but the apo-IRK model with theactivation loop produced noisy results. This correlates with the refinedBTK structure defined herein, where the activation loop of the BTK-KD issimilar to that of phospho-LCK, but not IRK. Translational searchesusing both the polyglycine/polyalanine models and the models whichmaintain conserved residues failed to produce a convincing solution,likely due to the existence of two molecules in the asymmetric unit andthe significant difference between the search models and the targetstructure.

Multiple Isomorphous Replacement

A heavy atom derivative search using a Patterson function calculation(in the RSPS program) followed by difference Fourier calculation (FFT)in the CCP4 suite (7) based on the heavy atom derivative data setsidentified four Hg sites and six Au sites. These sites were used tophase all reflections at 4.0 Å and above by MLPHARE ((7), CCP4 suite).The correct handedness of the protein was determined by the sign ofanomalous occupancies during the heavy atom site refinement. The mapcalculated from the combination of Hg and Au derivative phaseinformation, including anomalous diffraction data of Hg atoms in the EMPderivative, was subject to several rounds of phase improvement using theDM program ((7), CCP4 suite) with a solvent flattening and histogrammatching method. The improved maps demonstrated clear boundaries betweenthe target protein and solvent region. The maps indicated two BTK-KDmolecules in one asymmetric unit. Therefore, two polyglycine/polyalaninekinase search models were manually fit into the electron density andrevealed how the two molecules are related by NCS. The matrix thatrelates the orientation of the two molecules was generated and refinedinto two different matrices corresponding to the N-lobe and C-lobedomains, respectively, using MAMA and 6D_IMP (26). The refined matriceswere used in multi-domain averaging of the electron density map using6D_AVE (26). The final map was considerably improved from the previousmap with α-helix and β-strand structures, as well as many large aminoacids clearly visible. The approximately five hundred amino acidresidues (2×263 aa) and approximately 4000 atoms of the two BTK-KDmolecules based on the BTK amino acid sequence were readily fit into theelectron density map. The entire amino acid sequence of the BTK fragmentstarting from amino acid residue I397 to residue S659 were mostlytraceable in the electron density map, except for a few disordered aminoacid residues on the molecular surface (see FIG. 2).

Crystallographic Refinement

The kinase domain structures of the two BTK molecules were refined usingsimulated annealing in X-PLOR (6) and numerous structural adjustmentswere performed with help of CHAIN (53) and O programs (24). Therefinement statistics are summarized in Table 4.

The final structure was refined at 2.1 Å resolution to an R-factor of22% with all amino acid residues falling into favored or generouslyallowed regions in the Ramachandran plot (except for glycine residues),as indicated by PROCHECK (13). The average B-factor for all nonhydrogenatoms is 21 Å² and is below 20 Å² for more than half of the proteinatoms. Two short regions that are disordered in the electron density mapinclude part of the β1 strand (residues G409-Q412) and part of theactivation (A)-loop (residues E550 and V555). Other regions that displaya visible electron density in the original map and have high B-factorsinclude the loop from residues V546 to D549, the loops around residueQ467, and the N-terminal end of helix αC that has B-factors mostly inthe 20-30 Å² range.

Overall Architecture of the BTK Kinase Domain

A computer graphic of the BTK-KD crystal structure in itsunphosphorylated state is shown in FIG. 1 as a ribbon representation.BTK-KD is packed in a dimeric form in the crystal lattice, but presentmainly in monomeric form in solution (data not shown). The N-lobe andC-lobe of both BTK kinase molecules is shown. The secondary structure islabeled only on one molecule. The two BTK kinase domain molecules arerelated by a non-crystallographic two-fold axis that is approximatelyvertical in the center. This figure was prepared using MOLSCRIPT (28)and RASTER3D programs (36).

BTK-KD has a two-lobe fold reminiscent of the topology of other PTKkinase domain structures (14, 15). The secondary structure of the BTK-KDis labeled in FIG. 1 using the established nomenclature (27, 71). TheN-terminal lobe (residues I397-E475) contains five strands ofanti-parallel β sheets (β1-β5) and one α-helix (helix αC) (shown in FIG.1). The C-terminal lobe (residues N479-S659) contains a 4-helix bundle(αD, αE, αF and αH) flanked by a short antiparallel β sheet (β6, β8 andβ9) and four additional helices (αI, αDE, αEF, and αHI). The two helicalstructural segments that are too short to be labeled in the Figures,i.e. αDE and αHI, are located between alpha helices D and E and betweenH and I, respectively. The N— and C-lobes are connected by a linkerregion (residues E475-N479) and form a cleft at the ATP binding site.TABLE 4 Statistics for Crystallographic Data Analysis of the BTK KinaseDomain Nat 1 Nat 2 EMP Au Crystal X-ray source, wavelength CHESS, CHESS,CHESS, CHESS, (Å) λ = 1.009 λ = 1.009 λ = 1.009 λ = 1.009 Resolutionlimits (Å) 2.1 3.0 3.0 3.0 Unique reflections 25,284 10,020 11,39110,028 Completeness (%) 80.4 (79)* 86.7 (81) 96.5 (79) 88.3 (68) Rsym(%) 5.4 (20) 8.7 (21) 8.0 (19) 8.7 (23) MIRAS analysis Resolution range(Å) 15-4 15-4 Sites 4 6 Cullis R-factor (%) 66 82 Phasing Power 1.210.73 Overall FOM 0.6 Refinement Resolution range (Å) 5-2.1 Reflectionsused 20370 (F > 2σ) Total nonhydrogen atoms 4180 (protein) Watermolecules 180 R_(cryst) (%) 22.1 R_(free) (%) 28.7 Rmsd from ideal 0.006bond length Rmsd from ideal 1.5 bond angle Average B (Å²) 19.8 (for 95%of protein atoms with a B factor < 40.0 Å²) Data for the outermostresolution shell are given in parentheses.${R_{sym} = {\sum\limits_{h}{\sum\limits_{i = 1}^{N}{{{{\overset{\_}{I}(h)} - {I_{i}(h)}}}/{\sum\limits_{h}{\sum\limits_{i = 1}^{N}{{I_{i}(h)}*100}}}}}}},$where I_(i)(h) is the ith measurement of reflection h and {overscore(I)} (h) is the mean value of the N equivalent reflections.R_(cullis) = ∑F_(PH) ± F_(P) − F_(H(calc))/∑F_(PH) + F_(P) for allcentric reflections. Phasing power = rms(|F_(H)|/E), where |F_(H)| isthe heavy atom structure factor amplitude and E is the residual lack ofclosure. R_(cryst) = Σ||F_(obs)| − |F_(calc)||/Σ|F_(obs)|, wheresummation is over data used in the refinement. R_(free) is the same asR_(cryst) but only include 5% of data excluded from refinement.*Reflections were not used in the resolution bins near or on ice rings.

Example 7 Structural Comparison

The BTK-KD crystal structure was compared with the crystal structures ofother kinase domains including those of c-APK (PDB access code: 1ATP),LCK (3LCK), c-SRC (2SRC), HCK (1QCF), FGFRK (1AGW), IRK (1IRK for theapo structure; and 1IR3 for the ternary complex) using CHAIN and O (24,53).

c-AMP-Dependent Protein Kinase (E.C.2.7.1.37) (cAPK) (Catalytic Subunit)Complex With The Peptide Inhibitor PKI (5-24) And MnATP (A TernaryComplex Of cAPK)

Phosphorylated Insulin Receptor Tyrosine Kinase In Complex With PeptideSubstrate And Atp Analog

FIG. 3 shows the backbone positions of the A-loop and helix αC forBTK-KD, phospho-LCK, and c-SRC, superimposed to illustrate theirconformational differences and similarities. An AMP-PNP molecule ispresent in the c-SRC crystal structure and was used to mark the locationof active site. The side chains of R544 and Y551 in BTK and theirequivalent residues in LCK and c-SRC on the A-loop are shown. Allcoordinates were superimposed in CHAIN (53). This figure was preparedusing the Insight II program suite (1997, Molecular Simulations, Inc.,San Diego, Calif.).

BTK-KD has a two-lobe fold with some similarity to that of other kinasedomains and some differences. The rotation of the N-lobe relative to theC-lobe varies among the different KD structures and the ATP-bindingcleft between the two lobes is closed when substrates or analogs arebound (18, 39). Therefore, both lobes of a KD need to adopt a mandatoryclosed conformation for the kinase domain to achieve a catalyticallyactive state. The crystal structure of the unphosphorylated BTK kinasedomain revealed that its N— and C-terminal lobes adopt a closedconformation very similar to the reported conformation of the lobes ofthe phosphorylated LCK-KD (root-mean-square deviation between thebackbones of the central portion of β3 and β5<1 Å (71), and the centralregions of the β3 and β5 strands are almost superimposable when theC-lobes are overlaid. See FIG. 3. However, the β1 and β2 strands, verymuch like the corresponding β strands of the cAK-KD, adopt a more“closed” conformation than their counterparts in LCK-KD. The rotationneeded to superimpose the N-lobe of the BTK-KD onto the N-lobe thecAPK-KD is only 5.2°, whereas an 11° rotation is required to overlay theN-lobe of the LCK-KD with the N-lobe of the cAPK-KD (39). By comparison,the magnitudes of the rotation needed to open the BTK-KD and LCK-KDN-lobes to match the conformation observed in the apo-IRK structure are22° and 17° (39), respectively.

In contrast to the similarity of the closed conformation of their N— andC-terminal lobes, the C-terminal ends of the helix αC inunphosphorylated BTK-KD versus phosphorylated LCK-KD are markedlydifferent (see FIG. 3) where black lines indicate hydrogen bonds. Thedistance between the Cα position of residue D440 in BTK-KD and itscounterpart in LCK is 6.7 Å. From the pivot point at residue F452, helixαC of BTK-KD needs to be rotated towards the ATP-binding cleft by 20° tobe superimposed onto the helix αC of the LCK-KD. The helix αC inphosphorylated LCK-KD adopts a closed conformation consistent with acatalytically active state (71). By comparison, the helix αC of theunphosphorylated BTK-KD adopts a more open conformation than that of theLCK-KD. The conformation of helix αC of the BTK-KD is different from theopen conformation of helix αC in c-SRC as well (see FIG. 3), inaccordance with a unique conformation of the A-loop in BTK-KD.Significant structural differences between BTK-KD and LCK-KD were alsofound in helices αDE, αEF, αG and αI (which differed in location byapproximately 2 Å), and in the glycine loop (β1↑β2). The β1 strand ofthe glycine loop is highly flexible and was observed in two distinctalternative conformations in the BTK-KD crystal structure. Oneconformation of the β1 strand is similar to the conformation of thecorresponding β1 strand in cAPK-KD, whereas the other conformationplaces residues T410-N412 in a position that allows the triphosphate ofATP to bind BTK molecule A. A portion of the glycine loop is disorderedin BTK molecule B that is related to molecule A by anon-crystallographic two-fold axis. The adopted conformation of theinvariant PTK residues D439-G441 (DFG) in BTK-KD is consistent with theconformation of the same residues in the apo-IRK structure (19).

FIG. 4 and FIG. 5 are computer images showing the non-inhibitory (BTK)(FIG. 4) and inhibitory (IRK) (FIG. 5) conformations of the A-loop.

Unique Non-Inhibitory Conformation of the Activation Loop in BTK KinaseDomain

Although it is highly mobile (B-factors of 30-40 Å²), the “activationloop” (A-loop) of BTK-KD, except for residues S553-G556, is visiblewithin the electron density map. The A-loop of the BTK-KD isstructurally very similar to the A-loop in the phosphorylated LCK-KD andthe peptide substrate-bound IRK-KD structures, which contain aphosphorylated tyrosine residue (see FIG. 3, IRK is not shown). R544,E445 and Y551 are well defined in electron densities, as shown in the2Fo-Fc electron density map (FIG. 2, contoured at 1.0 σ and shown instereo view). Based on the distance and geometry in the refinedstructure, the hydroxyl group of Y551 interacts with R544, S553, and awater molecule via hydrogen bonds, and this group possibly interactselectrostatically with the nearby R520 residue. The aromatic ring ofY551 has van der Waals contacts with V546 and F574. Y551 of the A-loopof the BTK-KD is not phosphorylated but it interacts with R544 as is thecase for the phospho-IRK and phospho-LCK structures. The structuraldifference is that the unphosphorylated Y551 in the A-loop of the BTK-KDinteracts with R544 via a hydroxyl group rather than through a phosphate(see FIG. 6). The crystal structure of the BTK-KD indicates that theA-loop is essentially in a closed noninhibitory conformation (FIGS. 3and 4). Both crystal structures were first superimposed and shownseparately in the same orientation with the A-loops highlighted astubes. Neither of the activation tyrosines is phosphorylated in crystalstructures. These figures were prepared with GRASP (41). Hence, onlyminor structural adjustments would be expected for Y551 and thesurrounding residues upon Y551 phosphorylation. Similarly, only minorstructural changes in the orientation of the loop residues G556-P560would be expected upon substrate binding. A similar active conformationof the A-loop has also been observed in the crystal structures of therecently reported checkpoint (CHK1) kinase (19), and CHK1-likephosphorylase kinase (PHK) (32, 55), in which the catalytic core isconstitutively active. This unique conformation of the A-loop of theunphosphorylated BTK-KD Supports a novel molecular mechanism for itsinitial activation (FIGS. 6 and 7).

The A-loop of kinase domains of PTKs and protein serine kinases (PSKs)usually serves as a negative regulator of kinase activity by blockingATP binding and/or substrate peptide binding (20). Several proteinkinases, including IRK, calmodulin-dependent protein kinase II, myosinlight-chain kinase and protein kinase C, have a pseudosubstrate sequencewithin the A-loop that sterically blocks the access to the catalyticcleft by a substrate peptide (see review (23)). In the apo-IRKstructure, the A-loop involving the Y551-equivalent tyrosine residuebehaves as a substrate peptide mimic and sterically blocks access to theactive site (FIG. 5) (18, 19). Similarly, the A-loop in the inactivec-SRC, although different from that in apo-IRK, also hinders peptidebinding and blocks access to the active site (FIG. 3) (70, 72). Theauto-inhibition mechanism illustrated in the apo-IRK structure wasthought to be applicable to BTK as well (52). However, a closeexamination of the BTK-KD crystal structure reveals that Y551 is notnear the active site residue D521 (FIGS. 3 and 4). Contrary to theexpectations, the catalytic cleft of the BTK-KD is not occluded by theA-loop or by any other portion of the KD. The conformation of A-loop inunphosphorylated BTK-KD structure is very similar to the activeconformation of phosphorylated LCK-KD and hence does not limit substrateaccess to the active site.

Activation of BTK by Transphosphorylation of the Activation LoopTyrosine Residue Y551

In a typical protein kinase structure, the beginning and end of the loopfrom helix αC to β4 and the linker loop between the lobes (N and C) actas hinge points (22). Correspondingly, two critical structuralcomponents that are associated with the active state conformationinclude the closure of the two lobes and the position of helix αCrelative to the N-lobe. The two lobes (N and C) in the BTK structureadopt a closed conformation. A nearly identical conformation wasobserved for the two BTK-KD molecules that are related by a 2-foldnon-crystallographic symmetry and have different molecular packing. Thissuggests that the apo-BTK kinase domain favors a closed/activeconformation. However, the distance of helix αC from the active site islarger in BTK-KD than it is in IRK and c-APK ternary complex structures.The distance between E445 and K430 is 10.2 Å in BTK-KD, and thecorresponding distances in IRK and c-APK ternary complexes areapproximately 3 Å.

K430 and E445 are two invariant residues in the structural super familyof protein kinases (15). Even very conservative mutations of theseresidues in BTK-KD such as K430R and E445D have been associated withsevere XLA (66). Mutations of the less-conserved R544 residue are alsoassociated with severe XLA (47). The location of the E445-equivalentresidue relative to the K430-equivalent residue and the location of theE445-equivalent residue relative to the ATP triphosphate serve asindicators of whether helix αC is in a favorable position for catalysis(70) (FIGS. 6 and 7). In the active KD structures such as those of thepeptide-bound cAPK-KD and IRK-KD or phosphorylated LCK-KD (FIG. 6), theE445-equivalent residues are associated with the K430-equivalent residueand the ATP triphosphate either directly by hydrogen bonding, orindirectly through a medium of molecules such as water or Mg (FIG. 6).The C-terminal oxygen atoms of E445 in the BTK structure are 10.2 Å awayfrom the K430 terminal atom. E445 is hydrogen bonded to R544, suggestingthat R544 may play a regulatory role in preventing E445 from relocatingto the active site and may hinder hydrogen bond formation with K430.

This unique structural arrangement strongly suggests a novel molecularmechanism of activation by Y551 phosphorylation (FIG. 7). Uponphosphorylation of Y551, R544 may be more engaged in the interactionwith the phosphate group of P*Y551 and as a consequence, E445 could bereleased to relocate to the active site and form a hydrogen bond withK430. Helix αC in the BTK-KD structure has to be rotated by 20° from thepivot point at residue L452 (FIG. 6). Therefore, the phosphorylation ofY551 may activate BTK by disengaging R544 and E445, which consequentlyenables E445 to take part in the catalytic reaction, as illustrated inFIG. 7.

This unique regulatory inhibition of BTK by R544 differs from theregulatory inhibition of c-SRC by SH3, in which the salt bridgeformation between E310 (equivalent to E445) and K295 (equivalent toK430) is prevented by the binding of the c-SRC SH3 domain to theproline-rich linker region between SH2 and catalytic domains (17, 69);it also differs from the mechanism of CDK2, in which the relocation ofhelix αC is stabilized with the help of binding with cyclin. In summary,the activation of BTK by Y551 phosphorylation likely involves anexchange of hydrogen-bonded pairs from E445/R544 to E445/K430, which canoccur in concert with the phosphorylation of Y551 and subsequentrelocation of helix αC.

The BTK Y551F mutant was reported to abrogate BTK autophosphorylation(33). Others observed that Y551F mutation causes a 90% reduction ofLYN-mediated enhancement of both BTK tyrosine phosphorylation and kinaseactivity (52). A phenylalanine residue cannot engage in hydrogen-bondinginteractions that link Tyr 551 to R544 and thus the conformation of theactivation loop bearing this mutation may only partially resemble theinternally bound inhibitory configuration. On the other hand, the Y551 Fmutant loses the ability to be phosphorylated and based on our proposedmechanism cannot release E445 to the active site. In contrast, theY551-equivalent residue of c-SRC when mutated to phenylalanine waspredicted to unlock the inhibitory “A helix” and actually activate thekinase activity (70). These observations point to an interestingdifference between BTK and the kinase proteins of the SRC family. TheX-ray crystal structure of the BTK-KD revealed that neither Y551 norY545, the other tyrosine residue of the A-loop, reside in the catalyticsite. This finding strongly supports the notion that BTK is activated bya trans-phosphorylation mechanism (via intermolecular interaction) atY551 as suggested in previous experiments with LYN (43, 52, 68), ratherthan a cis-phosphorylation mechanism.

Example 8 BTK-KD Substrate Binding Model

To further elucidate the structural basis of the BTK activation, aP*Y551-PTK/ATP+Mg/peptide ternary complex model was constructed (FIGS. 8and 9). The model was obtained by adjusting the coordinates of theBTK-KD structure by first rotating helix αC of BTK-KD to emulate thephospho-LCK structure and then adjusting the glycine loop to accommodatethe substrates, based on the IRK ternary complex structure. An analysisof this new BTK-KD model and the BTK-KD crystal structure revealed nomajor steric clashes in the path of the 20° rotation between helix αCand the rest of the BTK-KD molecule.

FIG. 8 shows a computer image of a backbone model of phosphorylatedBTK-KD associated with ATP, Mg⁺⁺ and the substrate Igα peptide.Specifically, Mg⁺⁺ ions (spheres), ATP triphosphate and peptidesubstrate are shown in contact via hydrogen bond or electrostaticinteraction (thin lines). The in-line phosphoryl transfer mechanism forBTK is proposed (indicated by arrows). FIG. 9 shows a space-fillingmodel of this phospho-BTK-KD/ATP/Mg⁺⁺/Igα peptide complex.

Structural Features of the Substrate Binding Site of BTK

The peptide binding loop (S557-P560) of BTK-KD adopts a β strandconformation and presumably interacts with the substrate peptide in ananti-parallel manner, as observed in the IRK, PHK and cAPK ternarystructures. A peptide hexamer derived from an ITAM motif of Igα(NLY*EGL), a known physiologic substrate of BTK (46), has been modeledinto the peptide binding site of BTK-KD using the IRK ternary structureas a template (shown in FIGS. 8 and 9).

The peptide substrate-binding site of BTK-KD is a shallow groove 16 Ålong on the protein surface and can accommodate the binding of a portionof the target peptide substrate between the P−2 to P+3 positions. Thefirst half of the binding site is a circular region of 5.8 Å in radius,centered around the P−1 carbonyl group. This region can bind theresidues from P−2 to P, with the side chain groups of the P tyrosine andthe P−1 residue being surrounded by the BTK-KD residues (FIGS. 8 and 9).The remaining atoms of the residues from P−2 to P are mostly exposed tothe solvent environment.

An “enclosed” binding site is generally highly selective for peptidesubstrates whereas an “open” binding site is not. The cAPK crystalstructure revealed an enclosed and negatively charged binding site forthe Arg (P−1) residue (39). The PHK crystal structure demonstrated anenclosed polar binding site for Gln (P−2) formed by the P+1 loop whichcontains a Ser, Thr and Pro (32). In contrast, the BTK complex modelsuggests a half-buried and spacious P−1 binding site like the substratebinding site in IRK (18) (FIG. 9). However, L483 of BTK contributes to apreference for a hydrophobic P−1 residue whereas K1085 in IRK can beassociated with a preference for a negatively charged P−1 residue.

SYK has an asparagine residue corresponding to L483 and preferentiallyselects an aspartic residue for the P−1 residue over other types ofresidues (e. g. SYK selects a DYE motif (54)). Overall, the aliphaticportion of R525 and the side chain groups of L483, C481, R487 and M596likely define the P−1 binding subsite. The sequence alignment of theseresidues with those of SRC family PTKs indicates a similar bindingenvironment and therefore a similar recognition pattern for the P−1position. c-SRC, BLK and LYN all preferentially select a leucine orisoleucine as the P−1 residue (54). Similarly, BTK is also likely topreferentially select a leucine or isoleucine as the P−1 residue, whichis consistent with the notion that LY(223)D is a more favored BTKautophosphorylation site than EY(551)TSS (52).

The side chain group of the tyrosine targeted for phosphorylation on thesubstrate peptide is in contact with P560, R525, D521, γ-phosphate andpossibly with the side chain groups of Q412 and K558. The enclosedbinding environment is consistent with a highly discriminating bindingpocket for the P tyrosine.

The Glu (P+1) residue in BTK is close to F559 and interacts with N603.Residues larger than Glu can potentially interact with residue S604.Previous crystal structures for PTK kinase domains have not shown aspecific and enclosed binding site for the P+1 residue, as well as inthis current BTK-KD crystal structure. Therefore the selection for theP+1 residue is unlikely to be strict. However, in light of thedifferences for these three residues at the P+1 position, BTK is moresimilar to SRC family PTKs than it is to IRK or SYK. Residues thatcorrespond to F559, N603 and S604 of BTK are specified in parentheses:IRK (L,N,E), SYK (K,G,S), SRC (F,N,R), LYN (F,N,A), BLK (F,N,P).

Our model is consistent with the phosphoryl transfer mechanism of anin-line nucleophilic attack. Specifically, D445, K430, a Mg ion, and α-and β-phosphate groups form a network of electrostatic interactions andhydrogen bonds presumably to align the ATP molecule in a conformationsuitable for reaction (FIG. 8). D539 and the second Mg ion orient theγ-phosphate group for the in-line attack. The model indicates that thehydroxyl group of the P tyrosine forms a hydrogen bond with D521,consistent with the activation mechanism in which the attacking group isdeprotonated by an aspartic acid residue.

Example 9 Design of Modulators of BTK

To design specific modulators of BTK, the crystal structure coordinatesfor the kinase domain of BTK are used to model, predict, and identifyspecific ligands for modulating (inhibiting or stimulating) BTKactivity.

K_(i) values that quantitate predicted binding interactions between theinhibitor and residues in the kinase domain of BTK are estimated, forexample as described in Mahajan, et al. 1999 (34). Each ligand isindividually modeled into the catalytic site of the BTK kinase domainusing an advanced docking procedure (34, U.S. Pat. No. 6,294,575, issuedSep. 25, 2001 and U.S. Pat. No. 6,303,652, issued Oct. 16, 2001). Thevarious docked positions of each ligand are qualitatively evaluatedusing a scoring procedure and consequently compared with the IC₅₀ valuesof the ligands in cell-free BTK inhibition assays. The interactionscores, calculated K_(i) values, and measured IC₅₀ values for eachligand complexed with BTK is evaluated.

Apoptosis Assays

BTK inhibition assays include assays of cellular apoptosis induced byBTK. To induce apoptosis, cells were treated with an agonisticanti-Fas/APO-1 antibody (Biosource International, Camarillo, Calif.,lot. 04/1295) at 0.1 μg/ml, 0.5 μg/ml, or 1.0 μg/ml finalconcentrations. MC540 binding (as an early marker of apoptosis) and PIpermeability (as a marker of advanced stage apoptosis) weresimultaneously measured in DT-40 cells 24 hours after exposure toanti-Fas antibody as previously described (59). Whole cells wereanalyzed with a FACStar Plus flow cytometer (Becton Dickinson, San Jose,Calif.). All analyses were done using 488 nm excitation from an argonlaser. MC540 and PI emissions were split with a 600 nm short passdichroic mirror and a 575 nm and pass filter was placed in front of onephotomultiplier tube to measure MC540 emission and a 635 nm band passfilter was used for PI emission.

To detect apoptotic fragmentation of DNA, DT-40, NALM-6-UM 1, andRAMOS-1 cells were harvested 24 hours after exposure to anti-Fas. DNAwas prepared from Triton-X-100 lysates for analysis of fragmentation(59, 60). Cells were lysed in hypotonic 10 mmol/L Tris-HCl (pH 7.4), 1mmol/L EDTA, 0.2% Triton-X-100 detergent; and subsequently centrifugedat 11,000×g. To detect apoptosis-associated DNA fragmentation,supernatants were electrophoresed on a 1.2% agarose gel, and the DNAfragments were visualized by ultraviolet light after staining withethidium bromide.

Example 9 Mapping XLA Mutations

Although a homology model of BTK-KD is useful for providing thestructural basis of XLA-causing mutations, a BTK-KD crystal structureprovides a more accurate interpretation, especially considering that thetwo-lobe conformation among kinases and the geometry of active sitecould vary significantly. Most of known XLA-causing missense mutationsare listed in Table 5, together with structural consequences of thesemutations. Many of the XLA mutations map to the sites known to beimportant for the mechanism of BTK-KD activation described above (seeFIG. 10). FIG. 10 maps X-linked agammaglobulinaemia (XLA) relatedmutations on the crystal structure of the BTK kinase domain, shown instereo view. Several XLA mutations involve residues that are highlyconserved and may be part of the catalysis machinery. Some XLA mutationsinvolve other important active site residues. Many XLA mutations involvethe residues, which stabilize the hydrophobic core structure of theC-lobe domain. Other XLA mutations involve the residues of the lobelinker region and the peptide substrate-binding region. This figure wasprepared with the Insight II program suite (1997, Molecular Simulations,Inc., San Diego, Calif.). TABLE 5 XLA associated BTK missense mutationsBTK mutation associated with XLA Amino Structural Position and Functionof Involved Structural Residue # acid Residue Consequences 408 L→Pmaintain the beta conformation of the α1 strand A, indirectly 414 G→Rhighly conserved residue, backbone forms a A hydrogen bond with the βphosphate of ATP 418 Y→H maintain the local hydrophobic structural A,indirectly stability near the domain hinge region 429 I→N in ahydrophobic cluster and maintain the natural B curvature of the N-lobe βsheet 430 K→E invariant residue of PTK family, align ATP via C K→Rinteraction with the α phosphate 445 E→D invariant residue of PTKfamily, align ATP via C interaction with the β phosphate 462 G→D on theβ4 strand and the interface with β-sheet E G→V and helix C 476 Y→D closeto adenine base of ATP D 477 M→R close to adenine base of ATP D 502 C→Fon helix E, interact with F583 and M587 in a B C→W compact hydrophobiccluster 504 D→V ion pair with K456, near the hinge region of D helix C506 C→R on helix E, interact with F583 (helix F) and the B C→Y carbonylgroups of 644 and 502 508 A→D on helix E, near the hinge region of helixC D 509 M→I interact with I522 and V537 in a compact B M→V hydrophobiccluster 512 L→P near the side chains of L457, L452 and F517, B L→Q M509in a compact hydrophobic cluster 518 L→R close to V546, F574 and Y551 ina hydrophobic B + E cluster 520 R→Q conserved in all “RD” kinases,interacts with the B + E nearby activation Y551, stabilizing thephosphotyrosine 521 D→G invariant residue of PTK family, activation of CD→H the nucleophilic attacking hydroxyl group of the D→N target residue(tyrosine in BTK) by deprotonation 525 R→P alignment and stabilizationof the γ-phosphate A R→Q during phosphoryl transfer process 526 N→Kinvariant residue of PTK family, coupled with A D539 to align theγ-phosphate of ATP 535 V→F interact with L665 D 542 L→P near the highlyconserved DFG motif which D adopts two different conformations duringcatalytic process 544 R→K form a hydrogen bond with E445 in a see textR→G nonproductive conformation 559 F→S in the P + 1 substrate bindingpocket F, P + 1 562 R→P on a helix turn starting from P560 to S564 inthe F R→W protein substrate binding site 563 W→L hydrophobic interactionwith A523 and is part of F protein substrate binding pocket 567 E→K ionpair with R641 and thus contribute to the B interaction between helix EFand helix H or I. 569 L→P on helix EF B 578 S→Y on helix F, hydrogenbonded with the 575 amide B near the activation loop 581 W→R on helix F,hydrophobic interaction with W634 B in a compact hydrophobic cluster 582A→V near the 522 carbonyl group and D521 A + E′ 583 F→S see 506 B 587M→L on helix F, see 502 B 589 E→D on helix F, see 506 B E→G 592 S→Pforms a hydrogen bond with the 595 amide B S→Y 594 G→E near R487 whichforms part of the P − 1 binding F, P − 1 G→R pocket 597 P→T buried nearM596 which forms part of the P − 1 F, P − 1 binding pocket 598 Y→Cinteract with F601, L616 and T606 in a compact B hydrophobic cluster 606T→P on the inward face of helix G, see 598 B 607 A→D on helix G, mostlyexposed X 613 G→D near R615 X 616 L→F on helix G, interact with W634,Y598 and W588 B in a compact hydrophobic cluster 619 P→A on the inwardface of helix G and close to B P→/S/T W588, S592 and A622 622 A→Pinteract with 619, see 619 B 626 V→G form a hydrophobic cluster on theinward face of B helix H and close to Y591 630 M→K on the inward face ofhelix H, interacts with B M→T W634 and W588 633 C→Y on the inward faceof helix H in a compact B hydrophobic cluster 641 R→C on helix H andpair with E567, see 567 B R→H 644 F→L on the inward face of helix I andin a B F→S hydrophobic cluster 647 L→R on the inward face of helix I andclose to C633 B and F583 652 L→P exposed X* Missense mutations were obtained from BTKbase, a mutation database forX-linked agammaglobulinemia (http://protein.uta.fi/BTKbase/btkpub.html);A: affect the ATP binding; B: affect local structural stability; C:disrupt interaction with E445 and affect the catalytic reaction; D:interfere with domain “breathing”; E:# interfere with the activation process; E′: affect helix C andactivation; F: change sequence selection preference; X: no foreseeableeffect on kinase activity: P − 1: affect the P − 1 binding pocket; P +1: affect the P + 1 binding pocket.

Observations involving R544K/G and K430R mutations are intriguing. Anarginine residue is different from a lysine residue in side chain lengthas well as hydrogen bonding capability and interactions with phosphateand/or glutamic acid residues. These differences may adversely affectthe binding of ATP to the catalytic domain of BTK R544K/G. The R544Gmutant may not be able to stabilize the phosphorylated Y551 and mayconsequently destabilize the A-loop, the position of which is sensitivefor correct alignment of peptide substrate binding. On the other hand,R544G would be expected to unlock E445 and would probably trigger partof the activation process as discussed earlier in this paper. The effectof R544K mutation on BTK kinase activity is less certain because theR544-equivalent residues vary in different PTKs. The BTK structuresuggests that R544K is unlikely to abolish the kinase activity entirely.

R520 is not entirely conserved in the protein kinase super family but ispresent in all “RD” kinases that require activation by phosphorylation(23). Notably, the R520-equivalent residue in IRK was found to bemutated (R1131N) in patients with non-insulin-dependent diabetesmellitus (NIDDM) (1). The side chain of R520 is close to Y551 in theBTK-KD crystal structure. A survey of the equivalent residue in the “RD”kinase structures revealed that the R520-equivalent residue is close toa phosphate or a carboxylate group and apparently plays a role instabilizing the phospho-tyrosine/Ser/Thr. The hot-spot mutation R520Qcertainly changes the interaction pattern with P*Y551 and a glutamineresidue is much less likely to be associated with a phosphate group thanan arginine residue (8). Thus, the R520Q mutant probably would have adestabilized activation loop.

XLA-associated BTK mutations involving the N-lobe of the kinase domainare less frequent than those involving the C-lobe (FIG. 10 and Table 5).G414, L408, Y418, and I429 were identified as “mutation hot spots” inXLA patients. Notably, residue G414 which is highly conserved as aglycine (or less likely, small residues like alanine) is located at thebeginning of the β2 strand and is right on top of the triphosphate groupof ATP where its backbone forms a hydrogen bond with the oxygen atom ofthe γ-phosphate. At this position, a large side chain substitution suchas the G414R mutation would dramatically limit the loop flexibility thatmay be required to accommodate ATP and subsequently release ADP. Withthe arginine substitution, neither the hydrogen bonding nor the ATPbinding conformation would be optimal.

In the crystal structure of the IRK ternary complex, the β1-β2 loopadopts a common β turn type III, in which the i+3 position, whichcorresponds to G414 in BTK, is predominantly occupied by a flexibleglycine residue G1008 which allows the defined conformation and ispresumably necessary for correctly placing the ATP phosphate in the BTKcatalytic site. A G1008V mutation in IRK has been found in patients withNIDDM (1). A more dramatic G414R substitution in BTK is likely to alterthe conformation to become incompatible with the correct alignment ofATP for catalysis.

Modeling studies indicate that the XLA-associated mutations W563L,P597T, F559S and R562 can be directly or indirectly involved in thepeptide substrate binding. W563 is situated between P597 and A523, thelatter of which is near the center of the active site. W563L mutationmay alter the conformation of the peptide subsite and has beenidentified in patients with XLA. P597 is relatively distant from thecentral region of the active site but the side chain of P597 is totallyburied behind the nearby residues including M596, which forms part ofthe P-1 binding pocket (see FIG. 9). The nearest atom pairs between W563and P597 or A523 are 3.7 Å away. The three residues are packed againsteach other as the core part of the substrate peptide-binding site.Clearly, the P597T mutation would impair substrate binding. Bycomparison, the F559S mutation may change the selection preference ofthe binding region for the P+1 position (see FIG. 9). The side chain ofR562 forms a network of hydrogen bonds with N603, which is a part of theP+1 binding pocket, and T606, which is connected to the main chaincarbonyl group. The R562P mutation can be expected to alter the helicalturn due to the rigid proline residue and thereby change the localconformation including that of the important PTK invariant P-siteresidue P560. The R1174N mutant (corresponds to a mutation of R562) inIRK has been identified in NIDDM patients.

Remarkable insights were gained by mapping the XLA-associated missensemutations of the C-lobe onto the BTK-KD crystal structure. Most of thesemutations on the C-lobe are concentrated on the inward face of helicesand loops (see residues in FIG. 10). According to our analysis, themajority of the side chains are at least half-buried, suggesting thatthese mutations may destabilize the C-lobe of the kinase domain byaltering its interactions with neighboring residues (see also Table 5).The mutations include S578Y, W581R, A582V, F583S, M587L, E589D/G andS592P on both sides of helix αF that is flanked by other helices. Theinward sides of helices αE, αC, and αI, appear to be most susceptible toXLA-causing mutations (see FIG. 10). The inward face of loops locatedbetween the helices of the C-lobe, although lying exposed on the proteinsurface, are also susceptible to mutation. L652P is an exception in thatits side chain occurs on the protein surface. Therefore, the functionalimplications of this mutation should be interpreted with caution.

All publications, patents, and patent documents are incorporated byreference herein, as though individually incorporated by reference. Theinvention has been described with reference to various specific andpreferred embodiments and techniques. However, it should be understoodthat many variations and modifications may be made while remainingwithin the spirit and scope of the invention.

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72. Schindler, T., Sicheri, F., Pico, A., Gazit, A., Levitzki, A., andKuriyan, J. 1999. Mol. Cell 3:639-48. TABLE 1 Amino Atom Atom Acid TempNumber Type Residue X Y Z Occ. Factor ATOM 1 CB ILE 397 39.984 4.82617.892 1.00 26.05 BTKA ATOM 2 CG2 ILE 397 41.212 3.952 17.664 1.00 28.70BTKA ATOM 3 CG1 ILE 397 39.927 5.294 19.346 1.00 21.76 BTKA ATOM 4 CDILE 397 38.668 6.044 19.704 1.00 19.11 BTKA ATOM 5 C ILE 397 41.3826.663 16.890 1.00 28.45 BTKA ATOM 6 O ILE 397 42.042 6.591 15.857 1.0027.84 BTKA ATOM 7 N ILE 397 39.699 5.634 15.537 1.00 31.08 BTKA ATOM 8CA ILE 397 39.996 6.043 16.938 1.00 27.95 BTKA ATOM 9 N ASP 398 41.8337.254 17.988 1.00 29.89 BTKA ATOM 10 CA ASP 398 43.142 7.879 17.991 1.0030.58 BTKA ATOM 11 CB ASP 398 42.982 9.399 17.868 1.00 27.36 BTKA ATOM12 CG ASP 398 44.227 10.080 17.336 1.00 26.98 BTKA ATOM 13 OD1 ASP 39845.346 9.607 17.635 1.00 23.87 BTKA ATOM 14 OD2 ASP 398 44.078 11.08716.601 1.00 23.63 BTKA ATOM 15 C ASP 398 43.966 7.548 19.230 1.00 33.13BTKA ATOM 16 O ASP 398 43.564 7.860 20.350 1.00 34.18 BTKA ATOM 17 N PRO399 45.080 6.820 19.050 1.00 36.49 BTKA ATOM 18 CD PRO 399 45.461 6.04017.861 1.00 38.51 BTKA ATOM 19 CA PRO 399 45.938 6.472 20.187 1.00 36.60BTKA ATOM 20 CB PRO 399 46.941 5.494 19.573 1.00 34.91 BTKA ATOM 21 CGPRO 399 46.157 4.851 18.479 1.00 38.91 BTKA ATOM 22 C PRO 399 46.6257.765 20.581 1.00 35.91 BTKA ATOM 23 O PRO 399 47.165 8.454 19.718 1.0035.42 BTKA ATOM 24 N LYS 400 46.574 8.114 21.861 1.00 36.75 BTKA ATOM 25CA LYS 400 47.189 9.349 22.325 1.00 33.61 BTKA ATOM 26 CB LYS 400 46.8609.604 23.800 1.00 34.79 BTKA ATOM 27 CG LYS 400 47.406 10.924 24.3321.00 32.92 BTKA ATOM 28 CD LYS 400 47.052 11.127 25.795 1.00 32.83 BTKAATOM 29 CE LYS 400 45.589 11.506 25.982 1.00 33.63 BTKA ATOM 30 NZ LYS400 45.298 12.915 25.566 1.00 32.25 BTKA ATOM 31 C LYS 400 48.698 9.44822.083 1.00 31.96 BTKA ATOM 32 O LYS 400 49.510 9.153 22.958 1.00 27.95BTKA ATOM 33 N ASP 401 49.059 9.828 20.863 1.00 32.35 BTKA ATOM 34 CAASP 401 50.453 10.014 20.493 1.00 31.87 BTKA ATOM 35 CB ASP 401 50.8059.258 19.196 1.00 32.78 BTKA ATOM 36 CG ASP 401 49.823 9.521 18.057 1.0034.30 BTKA ATOM 37 OD1 ASP 401 49.422 8.542 17.390 1.00 31.33 BTKA ATOM38 OD2 ASP 401 49.466 10.692 17.811 1.00 34.83 BTKA ATOM 39 C ASP 40150.645 11.520 20.347 1.00 29.99 BTKA ATOM 40 O ASP 401 51.112 12.01619.321 1.00 28.60 BTKA ATOM 41 N LEU 402 50.212 12.238 21.378 1.00 30.44BTKA ATOM 42 CA LEU 402 50.307 13.686 21.416 1.00 32.58 BTKA ATOM 43 CBLEU 402 48.911 14.310 21.538 1.00 29.13 BTKA ATOM 44 CG LEU 402 47.76913.911 20.596 1.00 28.32 BTKA ATOM 45 CD1 LEU 402 47.220 12.552 20.9691.00 26.12 BTKA ATOM 46 CD2 LEU 402 46.662 14.931 20.708 1.00 26.92 BTKAATOM 47 C LEU 402 51.150 14.087 22.624 1.00 35.40 BTKA ATOM 48 O LEU 40251.460 13.254 23.476 1.00 36.97 BTKA ATOM 49 N THR 403 51.538 15.35622.681 1.00 36.15 BTKA ATOM 50 CA THR 403 52.330 15.864 23.793 1.0035.21 BTKA ATOM 51 CB THR 403 53.584 16.641 23.296 1.00 35.16 BTKA ATOM52 OG1 THR 403 53.287 17.328 22.073 1.00 36.34 BTKA ATOM 53 CG2 THR 40354.745 15.688 23.072 1.00 33.51 BTKA ATOM 54 C THR 403 51.448 16.72424.705 1.00 35.29 BTKA ATOM 55 O THR 403 50.473 16.214 25.266 1.00 34.77BTKA ATOM 56 N PHE 404 51.761 18.014 24.834 1.00 32.58 BTKA ATOM 57 CAPHE 404 50.985 18.918 25.683 1.00 32.99 BTKA ATOM 58 CB PHE 404 51.06018.457 27.151 1.00 33.57 BTKA ATOM 59 CG PHE 404 49.973 19.023 28.0341.00 36.18 BTKA ATOM 60 CD1 PHE 404 50.063 20.317 28.541 1.00 36.37 BTKAATOM 61 CD2 PHE 404 48.873 18.248 28.383 1.00 35.88 BTKA ATOM 62 CE1 PHE404 49.076 20.828 29.383 1.00 36.13 BTKA ATOM 63 CE2 PHE 404 47.88118.750 29.224 1.00 36.02 BTKA ATOM 64 CZ PHE 404 47.982 20.041 29.7261.00 36.27 BTKA ATOM 65 C PHE 404 51.559 20.327 25.551 1.00 30.92 BTKAATOM 66 O PHE 404 52.748 20.484 25.275 1.00 28.05 BTKA ATOM 67 N LEU 40550.710 21.341 25.706 1.00 31.51 BTKA ATOM 68 CA LEU 405 51.156 22.73025.627 1.00 31.53 BTKA ATOM 89 CB LEU 405 51.175 23.239 24.183 1.0032.59 BTKA ATOM 70 CG LEU 405 51.990 24.521 23.961 1.00 33.86 BTKA ATOM71 CD1 LEU 405 53.466 24.150 23.845 1.00 34.64 BTKA ATOM 72 CD2 LEU 40551.533 25.263 22.706 1.00 37.27 BTKA ATOM 73 C LEU 405 50.343 23.67226.521 1.00 32.49 BTKA ATOM 74 O LEU 405 50.538 23.676 27.735 1.00 33.98BTKA ATOM 75 N LYS 406 49.411 24.434 25.948 1.00 35.17 BTKA ATOM 76 CALYS 406 48.630 25.387 26.742 1.00 36.21 BTKA ATOM 77 CB LYS 406 49.41126.702 26.877 1.00 33.84 BTKA ATOM 78 CG LYS 406 50.477 26.685 27.9601.00 33.94 BTKA ATOM 79 CD LYS 406 51.410 27.884 27.867 1.00 35.43 BTKAATOM 80 CE LYS 406 52.445 27.713 26.760 1.00 37.40 BTKA ATOM 81 NZ LYS406 53.438 26.632 27.055 1.00 35.32 BTKA ATOM 82 C LYS 406 47.182 25.67926.303 1.00 37.77 BTKA ATOM 83 O LYS 406 46.588 24.939 25.512 1.00 39.12BTKA ATOM 84 N GLU 407 46.629 26.752 26.873 1.00 35.20 BTKA ATOM 85 CAGLU 407 45.263 27.221 26.633 1.00 34.68 BTKA ATOM 86 CB GLU 407 45.10528.626 27.220 1.00 34.04 BTKA ATOM 87 CG GLU 407 43.747 29.277 26.9741.00 28.63 BTKA ATOM 88 CD GLU 407 43.628 30.632 27.624 1.00 23.09 BTKAATOM 89 OE1 GLU 407 44.594 31.415 27.557 1.00 19.69 BTKA ATOM 90 OE2 GLU407 42.570 30.912 28.213 1.00 19.52 BTKA ATOM 91 C GLU 407 44.833 27.25325.178 1.00 34.30 BTKA ATOM 92 O GLU 407 45.664 27.386 24.283 1.00 38.04BTKA ATOM 93 N LEU 408 43.523 27.209 24.957 1.00 33.77 BTKA ATOM 94 CALEU 408 42.980 27.248 23.608 1.00 35.95 BTKA ATOM 95 CB LEU 408 43.33525.958 22.888 1.00 35.53 BTKA ATOM 96 CG LEU 408 44.349 26.065 21.7631.00 33.73 BTKA ATOM 97 CD1 LEU 408 45.091 24.751 21.657 1.00 32.87 BTKAATOM 98 CD2 LEU 408 43.649 26.440 20.453 1.00 33.61 BTKA ATOM 99 C LEU408 41.473 27.516 23.537 1.00 36.07 BTKA ATOM 100 O LEU 408 40.83627.827 24.549 1.00 30.55 BTKA ATOM 101 N GLY 409 40.923 27.400 22.3281.00 37.82 BTKA ATOM 102 CA GLY 409 39.509 27.647 22.086 1.00 42.67 BTKAATOM 103 C GLY 409 38.531 26.929 23.000 1.00 43.77 BTKA ATOM 104 O GLY409 38.872 25.926 23.621 1.00 44.19 BTKA ATOM 105 N TER 410 37.30027.426 23.053 1.00 44.64 BTKA ATOM 106 CA TER 410 36.269 26.844 23.9031.00 44.12 BTKA ATOM 107 CB TER 410 35.790 27.859 24.963 1.00 42.36 BTKAATOM 108 OG1 TER 410 36.859 28.760 25.285 1.00 38.07 BTKA ATOM 109 CG2TER 410 35.353 27.141 26.225 1.00 42.56 BTKA ATOM 110 C THR 410 35.05626.429 23.076 1.00 45.63 BTKA ATOM 111 O THR 410 34.984 26.700 21.8741.00 46.48 BTKA ATOM 112 N GLY 411 34.106 25.776 23.739 1.00 45.00 BTKAATOM 113 CA GLY 411 32.882 25.326 23.104 1.00 43.61 BTKA ATOM 114 C GLY411 31.968 24.888 24.228 1.00 42.95 BTKA ATOM 115 O GLY 411 32.43824.681 25.347 1.00 42.15 BTKA ATOM 116 N GLN 412 30.682 24.697 23.9461.00 41.91 BTKA ATOM 117 CA GLN 412 29.736 24.291 24.984 1.00 40.64 BTKAATOM 118 CB GLN 412 28.300 24.300 24.452 1.00 40.22 BTKA ATOM 119 CG GLN412 27.748 25.702 24.225 1.00 38.55 BTKA ATOM 120 CD GLN 412 26.33525.717 23.663 1.00 34.81 BTKA ATOM 121 OE1 GLN 412 25.732 26.780 23.5141.00 33.50 BTKA ATOM 122 NE2 OLN 412 25.799 24.545 23.354 1.00 28.18BTKA ATOM 123 C CLN 412 30.050 22.969 25.692 1.00 37.36 BTKA ATOM 124 OGLN 412 29.342 22.585 26.627 1.00 36.95 BTKA ATOM 125 N PHE 413 31.06022.248 25.214 1.00 34.84 BTKA ATOM 126 CA PHE 413 31.468 21.000 25.8531.00 32.28 BTKA ATOM 127 CE PEE 413 31.890 19.942 24.825 1.00 33.34 BTKAATOM 128 CG PHE 413 30.742 19.163 24.226 1.00 30.57 BTKA ATOM 129 CD1PEE 413 29.490 19.749 24.032 1.00 30.22 BTKA ATOM 130 CD2 PHE 413 30.93417.850 23.800 1.00 29.00 BTKA ATOM 131 CE1 PEE 413 28.451 19.039 23.4171.00 29.05 BTKA ATOM 132 CE2 PEE 413 29.899 17.133 23.183 1.00 27.19BTKA ATOM 133 CZ PEE 413 28.659 17.728 22.990 1.00 25.29 BTKA ATOM 134 CPHE 413 32.649 21.334 26.753 1.00 31.49 BTKA ATOM 135 O PHE 413 32.86520.701 27.783 1.00 28.50 BTKA ATOM 136 N GLY 414 33.413 22.346 26.3531.00 33.87 BTKA ATOM 137 CA GLY 414 34.562 22.763 27.134 1.00 36.54 BTKAATOM 138 C GLY 414 35.623 23.439 26.288 1.00 38.54 BTKA ATOM 139 O GLY414 35.372 23.843 25.144 1.00 37.26 BTKA ATOM 140 N VAL 415 36.80023.604 26.883 1.00 38.40 BTKA ATOM 141 CA VAL 415 37.944 24.225 26.2281.00 35.19 BTKA ATOM 142 CB VAL 415 38.859 24.900 27.286 1.00 33.66 BTKAATOM 143 CG1 VAL 415 39.567 23.841 28.118 1.00 33.58 BTKA ATOM 144 CG2VAL 415 39.851 25.858 26.639 1.00 29.68 BTKA ATOM 145 C VAL 415 38.73523.136 25.499 1.00 33.93 BTKA ATOM 146 O VAL 415 38.348 21.961 25.5151.00 33.38 BTKA ATOM 147 N VAL 416 39.821 23.544 24.845 1.00 33.13 BTKAATOM 148 CA VAL 416 40.716 22.648 24.124 1.00 28.19 BTKA ATOM 149 CB VAL416 40.608 22.849 22.570 1.00 27.16 BTKA ATOM 150 CG1 VAL 416 39.23622.466 22.080 1.00 24.50 BTKA ATOM 151 CG2 VAL 416 40.838 24.282 22.1841.00 21.15 BTKA ATOM 152 C VAL 416 42.138 22.937 24.628 1.00 25.73 BTKAATOM 153 O VAL 416 42.344 23.904 25.354 1.00 25.11 BTKA ATOM 154 N LYS417 43.100 22.079 24.298 1.00 27.45 BTKA ATOM 155 CA LYS 417 44.50522.255 24.723 1.00 28.38 BTKA ATOM 156 CB LYS 417 44.875 21.266 25.8381.00 30.82 BTKA ATOM 157 CG LYS 417 44.299 21.627 27.207 1.00 32.85 BTKAATOM 158 CD LYS 417 44.889 22.936 27.747 1.00 32.78 BTKA ATOM 159 CE LYS417 44.092 23.465 28.933 1.00 30.38 BTKA ATOM 160 NZ LYS 417 42.67123.743 28.566 1.00 24.07 BTKA ATOM 161 C LYE 417 45.429 22.050 23.5311.00 22.74 BTKA ATOM 162 O LYS 417 44.971 21.628 22.482 1.00 23.20 BTKAATOM 163 N ALA 418 46.717 22.344 23.670 1.00 19.60 BTKA ATOM 164 CA ALA418 47.625 22.172 22.532 1.00 19.78 BTKA ATOM 165 CB ALA 418 48.48423.410 22.334 1.00 19.67 BTKA ATOM 166 C ALA 418 48.493 20.924 22.5501.00 19.25 BTKA ATOM 167 O ALA 418 48.892 20.446 23.619 1.00 19.18 BTKAATOM 168 N GLY 419 48.751 20.398 21.352 1.00 16.40 BTKA ATOM 169 CA GLY419 49.570 19.210 21.176 1.00 14.78 BTKA ATOM 170 C GLY 419 49.88618.994 19.704 1.00 14.35 BTKA ATOM 171 O GLY 419 49.350 19.692 18.8411.00 15.21 BTKA ATOM 172 N ALA 420 50.787 18.063 19.411 1.00 12.74 BTKAATOM 173 CA ALA 420 51.152 17.747 18.034 1.00 10.26 BTKA ATOM 174 CB ALA420 52.660 17.800 17.855 1.00 10.16 BTKA ATOM 175 C ALA 420 50.63116.345 17.776 1.00 9.89 BTKA ATOM 176 O ALA 420 50.619 15.520 18.6851.00 8.22 BTKA ATOM 177 N TRP 421 50.185 16.073 16.557 1.00 10.66 BTKAATOM 178 CA TRP 421 49.637 14.759 16.236 1.00 14.79 BTKA ATOM 179 CB TRP421 48.117 14.878 16.060 1.00 13.99 BTKA ATOM 180 CG TRP 421 47.43313.605 15.683 1.00 15.77 BTKA ATOM 181 CD2 TRP 421 46.685 13.355 14.4861.00 17.12 BTKA ATOM 182 CE2 TRP 421 46.203 12.027 14.563 1.00 19.95BTKA ATOM 183 CE3 TRP 421 46.373 14.123 13.357 1.00 13.78 BTKA ATOM 184CD1 TRP 421 47.380 12.452 16.414 1.00 18.99 BTKA ATOM 185 NE1 TRP 42146.646 11.498 15.746 1.00 21.46 BTKA ATOM 186 CZ2 TRP 421 45.419 11.45413.552 1.00 19.23 BTKA ATOM 187 CZ3 TRP 421 45.595 13.552 12.354 1.009.53 BTKA ATOM 188 CH2 TRP 421 45.127 12.233 12.460 1.00 12.55 BTKA ATOM189 C TRP 421 50.270 14.085 15.011 1.00 16.84 BTKA ATOM 190 O TRP 42150.448 14.721 13.969 1.00 17.90 BTKA ATOM 191 N ARG 422 50.600 12.79915.158 1.00 18.95 BTKA ATOM 192 CA ARG 422 51.194 11.983 14.091 1.0024.07 BTKA ATOM 193 CB ARG 422 50.111 11.437 13.144 1.00 24.28 BTKA ATOM194 CG ARG 422 49.243 10.342 13.724 1.00 21.64 BTKA ATOM 195 CD ARG 42248.551 9.548 12.621 1.00 22.23 BTKA ATOM 196 NE ARG 422 47.770 10.39211.720 1.00 25.72 BTKA ATOM 197 CZ ARG 422 46.956 9.936 10.769 1.0026.16 BTKA ATOM 198 NH1 ARG 422 46.292 10.799 10.011 1.00 24.22 BTKAATOM 199 NH2 ARG 422 46.799 8.630 10.568 1.00 25.98 BTKA ATOM 200 C ARG422 52.263 12.701 13.267 1.00 26.23 BTKA ATOM 201 O ARG 422 52.16312.802 12.043 1.00 25.36 BTKA ATOM 202 N GLY 423 53.308 13.160 13.9351.00 28.03 BTKA ATOM 203 CA GLY 423 54.347 13.876 13.234 1.00 28.68 BTKAATOM 204 C GLY 423 54.117 15.347 13.502 1.00 31.49 BTKA ATOM 205 O GLY423 54.093 15.758 14.666 1.00 33.41 BTKA ATOM 206 N ALA 424 53.83116.124 12.460 1.00 30.81 BTKA ATOM 207 CA ALA 424 53.635 17.553 12.6601.00 29.14 BTKA ATOM 208 CB ALA 424 54.793 18.322 12.067 1.00 32.15 BTKAATOM 209 C ALA 424 52.301 18.185 12.256 1.00 25.28 BTKA ATOM 210 O ALA424 52.227 18.989 11.324 1.00 22.96 BTKA ATOM 211 N ALA 425 51.24917.822 12.978 1.00 21.73 BTKA ATOM 212 CA ALA 425 49.936 18.390 12.7531.00 17.25 BTKA ATOM 213 CB ALA 425 48.910 17.300 12.468 1.00 14.79 BTKAATOM 214 C ALA 425 49.623 19.102 14.062 1.00 17.01 BTKA ATOM 215 O ALA425 49.656 18.490 15.128 1.00 16.50 BTKA ATOM 216 N ASP 426 49.44520.415 13.996 1.00 16.77 BTKA ATOM 217 CA ASP 426 49.137 21.200 15.1791.00 14.51 BTKA ATOM 218 CB ASP 426 49.418 22.681 14.926 1.00 16.45 BTKAATOM 219 CG ASP 426 50.882 22.956 14.643 1.00 20.73 BTKA ATOM 220 OD1ASP 426 51.185 23.493 13.558 1.00 19.46 BTKA ATOM 221 OD2 ASP 426 51.73222.637 15.504 1.00 22.08 BTKA ATOM 222 C ASP 426 47.672 20.983 15.5071.00 15.14 BTKA ATOM 223 O ASP 426 46.796 21.258 14.682 1.00 15.14 BTKAATOM 224 N VAL 427 47.408 20.473 16.706 1.00 15.54 BTKA ATOM 225 CA VAL427 46.046 20.196 17.125 1.00 12.56 BTKA ATOM 226 CB VAL 427 45.81418.664 17.291 1.00 13.80 BTKA ATOM 227 CG1 VAL 427 46.243 17.926 16.0411.00 7.25 BTKA ATOM 228 CG2 VAL 427 46.557 18.122 18.511 1.00 13.29 BTKAATOM 229 C VAL 427 45.659 20.908 18.421 1.00 12.59 BTKA ATOM 230 O VAL427 46.516 21.391 19.166 1.00 15.43 BTKA ATOM 231 N ALA 428 44.35421.023 18.634 1.00 11.11 BTKA ATOM 232 CA ALA 428 43.785 21.637 19.8221.00 12.87 BTKA ATOM 233 CB ALA 428 42.995 22.872 19.449 1.00 9.07 BTKAATOM 234 C ALA 428 42.860 20.565 20.380 1.00 12.26 BTKA ATOM 235 O ALA428 41.833 20.263 19.775 1.00 17.33 BTKA ATOM 236 N ILE 429 43.24619.957 21.501 1.00 16.62 BTKA ATOM 237 CA ILE 429 42.461 18.889 22.1171.00 15.64 BTKA ATOM 238 CB ILE 429 43.383 17.773 22.733 1.00 14.98 BTKAATOM 239 CG2 ILE 429 44.844 18.223 22.770 1.00 13.61 BTKA ATOM 240 CG1ILE 429 42.855 17.290 24.088 1.00 15.92 BTKA ATOM 241 CD ILE 429 43.67916.183 24.712 1.00 20.29 BTKA ATOM 242 C ILE 429 41.342 19.321 23.0671.00 16.00 BTKA ATOM 243 O ILE 429 41.583 19.938 24.114 1.00 12.97 BTKAATOM 244 N LYS 430 40.112 19.013 22.657 1.00 20.23 BTKA ATOM 245 CA LYS430 38.892 19.327 23.403 1.00 22.33 BTKA ATOM 246 CB LYS 430 37.76919.692 22.422 1.00 25.59 BTKA ATOM 247 CG LYS 430 36.474 20.199 23.0491.00 29.20 BTKA ATOM 248 CD LYS 430 35.457 20.560 21.963 1.00 31.15 BTKAATOM 249 CE LYS 430 34.196 21.193 22.544 1.00 32.32 BTKA ATOM 250 NZ LYS430 33.185 21.522 21.491 1.00 25.96 BTKA ATOM 251 C LYS 430 38.45418.119 24.208 1.00 21.53 BTKA ATOM 252 O LYS 430 38.614 16.984 23.7671.00 23.61 BTKA ATOM 253 N MET 431 37.899 18.364 25.385 1.00 22.32 BTKAATOM 254 CA MET 431 37.420 17.281 26.232 1.00 25.57 BTKA ATOM 255 CB MET431 37.831 17.490 27.696 1.00 23.66 BTKA ATOM 256 CG MET 431 39.31317.321 27.980 1.00 28.55 BTKA ATOM 257 SD MET 431 39.644 17.035 29.7371.00 29.62 BTKA ATOM 258 CE MET 431 39.350 18.692 30.411 1.00 25.27 BTKAATOM 259 C MET 431 35.906 17.271 26.143 1.00 24.67 BTKA ATOM 260 O MET431 35.288 18.316 25.941 1.00 27.00 BTKA ATOM 261 N ILE 432 35.32016.084 26.199 1.00 26.73 BTKA ATOM 262 CA ILE 432 33.871 15.969 26.1781.00 30.90 BTKA ATOM 263 CB ILE 432 33.392 14.792 25.284 1.00 32.72 BTKAATOM 264 CG2 ILE 432 31.937 14.456 25.569 1.00 29.29 BTKA ATOM 265 CG1ILE 432 33.547 15.149 23.802 1.00 31.51 BTKA ATOM 266 CD ILE 432 34.97715.269 23.324 1.00 30.77 BTKA ATOM 267 C ILE 432 33.450 15.767 27.6381.00 32.06 BTKA ATOM 268 O ILE 432 32.315 16.075 28.011 1.00 33.24 BTKAATOM 269 N LYS 433 34.419 15.307 28.440 1.00 33.53 BTKA ATOM 270 CA LYS433 34.341 15.031 29.885 1.00 34.00 BTKA ATOM 271 CB LYS 433 33.09715.629 30.549 1.00 31.21 BTKA ATOM 272 CG LYS 433 33.169 17.155 30.7141.00 30.57 BTKA ATOM 273 CD LYS 433 33.736 17.553 32.070 1.00 25.39 BTKAATOM 274 CE LYS 433 32.746 17.249 33.191 1.00 24.00 BTKA ATOM 275 NZ LYS433 31.467 17.997 33.006 1.00 15.65 BTKA ATOM 276 C LYS 433 34.51913.555 30.235 1.00 35.56 BTKA ATOM 277 O LYS 433 34.910 12.755 29.3841.00 36.53 BTKA ATOM 278 N GLU 434 34.292 13.210 31.500 1.00 35.04 BTKAATOM 279 CA GLU 434 34.464 11.841 31.979 1.00 31.68 BTKA ATOM 280 CB CLU434 35.236 11.859 33.299 1.00 31.76 BTKA ATOM 281 CG GLU 434 35.52510.480 33.868 1.00 25.49 BTKA ATOM 282 CD GLU 434 36.019 10.534 35.2831.00 25.78 BTKA ATOM 283 OE1 GLU 434 35.196 10.333 36.191 1.00 30.32BTKA ATOM 284 OE2 GLU 434 37.222 10.776 35.491 1.00 30.52 BTKA ATOM 285C GLU 434 33.159 11.074 32.177 1.00 31.82 BTKA ATOM 286 O GLU 434 32.31311.481 32.969 1.00 28.09 BTKA ATOM 287 N GLY 435 33.031 9.938 31.4951.00 34.12 BTKA ATOM 288 CA GLY 435 31.844 9.110 31.610 1.00 35.84 BTKAATOM 289 C GLY 435 30.583 9.721 31.023 1.00 37.43 BTKA ATOM 290 O GLY435 29.953 9.120 30.144 1.00 36.18 BTKA ATOM 291 N SER 436 30.200 10.88031.562 1.00 37.72 BTKA ATOM 292 CA SER 436 29.024 11.656 31.157 1.0035.78 BTKA ATOM 293 CB SER 436 29.380 13.149 31.108 1.00 35.22 BTKA ATOM294 OG SER 436 30.577 13.383 30.374 1.00 28.66 BTKA ATOM 295 C SER 43628.442 11.227 29.825 1.00 34.88 BTKA ATOM 296 O SER 436 27.311 10.74529.752 1.00 33.75 BTKA ATOM 297 N MET 437 29.236 11.407 28.778 1.0035.33 BTKA ATOM 298 CA MET 437 28.848 11.037 27.432 1.00 36.32 BTKA ATOM299 CB MET 437 29.146 12.191 26.467 1.00 35.52 BTKA ATOM 300 CG MET 43728.879 13.578 27.063 1.00 36.44 BTKA ATOM 301 SD MET 437 27.262 13.77327.876 1.00 30.54 BTKA ATOM 302 CE MET 437 26.468 14.965 26.768 1.0030.24 BTKA ATOM 303 C MET 437 29.702 9.815 27.112 1.00 35.84 BTKA ATOM304 O MET 437 30.916 9.829 27.323 1.00 33.00 BTKA ATOM 305 N SER 43829.060 8.741 26.668 1.00 38.82 BTKA ATOM 306 CA SER 438 29.770 7.50726.353 1.00 39.46 BTKA ATOM 307 CB SER 438 28.923 6.288 26.739 1.0039.31 BTKA ATOM 308 OG SER 438 28.946 6.080 28.141 1.00 42.46 BTKA ATOM309 C SER 438 30.291 7.349 24.928 1.00 37.92 BTKA ATOM 310 O SER 43829.699 7.844 23.964 1.00 35.58 BTKA ATOM 311 N GLU 439 31.387 6.59824.830 1.00 38.56 BTKA ATOM 312 CA GLU 439 32.072 6.281 23.579 1.0037.22 BTKA ATOM 313 CB GLU 439 33.015 5.098 23.820 1.00 38.03 BTKA ATOM314 CG GLU 439 33.578 4.444 22.567 1.00 39.09 BTKA ATOM 315 CD GLU 43934.595 3.357 22.887 1.00 36.27 BTKA ATOM 316 OE1 GLU 439 34.313 2.51423.771 1.00 36.28 BTKA ATOM 317 OE2 GLU 439 35.677 3.350 22.257 1.0032.61 BTKA ATOM 318 C GLU 439 31.122 5.968 22.428 1.00 36.18 BTKA ATOM319 O GLU 439 31.254 6.535 21.347 1.00 37.11 BTKA ATOM 320 N ASP 44030.154 5.090 22.678 1.00 35.64 BTKA ATOM 321 CA ASP 440 29.172 4.69221.665 1.00 36.29 BTKA ATOM 322 CB ASP 440 28.228 3.619 22.223 1.0035.13 BTKA ATOM 323 CG ASP 440 28.822 2.223 22.157 1.00 33.91 BTKA ATOM324 OD1 ASP 440 29.754 1.921 22.933 1.00 33.93 BTKA ATOM 325 OD2 ASP 44028.342 1.425 21.328 1.00 33.14 BTKA ATOM 326 C ASP 440 28.343 5.83821.089 1.00 35.32 BTKA ATOM 327 O ASP 440 28.079 5.876 19.884 1.00 31.62BTKA ATOM 328 N GLU 441 27.939 6.764 21.954 1.00 34.63 BTKA ATOM 329 CAGLU 441 27.120 7.905 21.546 1.00 33.66 BTKA ATOM 330 CB GLU 441 26.8458.819 22.742 1.00 35.94 BTKA ATOM 331 CG GLU 441 26.422 8.150 24.0391.00 35.11 BTKA ATOM 332 CD GLU 441 26.394 9.138 25.203 1.00 35.16 BTKAATOM 333 OE1 GLU 441 26.838 10.292 25.024 1.00 36.46 BTKA ATOM 334 OE2GLU 441 25.946 8.765 26.306 1.00 35.56 BTKA ATOM 335 C GLU 441 27.7868.756 20.462 1.00 32.20 BTKA ATOM 336 O GLU 441 27.301 8.861 19.333 1.0029.93 BTKA ATOM 337 N PHE 442 28.908 9.361 20.841 1.00 31.11 BTKA ATOM338 CA PHE 442 29.683 10.253 19.987 1.00 29.28 BTKA ATOM 339 CB PHE 44230.854 10.837 20.804 1.00 29.09 BTKA ATOM 340 CG PHE 442 31.563 11.99020.135 1.00 31.98 BTKA ATOM 341 CD1 PHE 442 30.865 12.888 19.325 1.0032.20 BTKA ATOM 342 CD2 PHE 442 32.932 12.173 20.308 1.00 30.79 BTKAATOM 343 CE1 PHE 442 31.517 13.947 18.697 1.00 27.29 BTKA ATOM 344 CE2PHE 442 33.592 13.229 19.684 1.00 29.97 BTKA ATOM 345 CZ PHE 442 32.87914.117 18.876 1.00 27.41 BTKA ATOM 346 C PHE 442 30.182 9.638 18.6711.00 27.25 BTKA ATOM 347 O PHE 442 30.363 10.351 17.688 1.00 26.62 BTKAATOM 348 N ILE 443 30.377 8.325 18.646 1.00 26.46 BTKA ATOM 349 CA ILE443 30.866 7.639 17.450 1.00 26.92 BTKA ATOM 350 CB ILE 443 30.753 6.09717.608 1.00 27.02 BTKA ATOM 351 CG2 ILE 443 30.893 5.399 16.262 1.0029.28 BTKA ATOM 352 CG1 ILE 443 31.808 5.586 18.602 1.00 26.98 BTKA ATOM353 CD ILE 443 33.253 5.879 18.207 1.00 23.34 BTKA ATOM 354 C ILE 44330.173 8.079 16.160 1.00 27.64 BTKA ATOM 355 O ILE 443 30.834 8.45115.189 1.00 27.13 BTKA ATOM 356 N GLU 444 28.843 8.057 16.163 1.00 29.25BTKA ATOM 357 CA GLU 444 28.061 8.449 14.992 1.00 30.51 BTKA ATOM 358 CBGLU 444 26.552 8.274 15.256 1.00 32.35 BTKA ATOM 359 CG GLU 444 26.0538.917 16.553 1.00 35.88 BTKA ATOM 360 CD GLU 444 24.549 9.144 16.5821.00 35.26 BTKA ATOM 361 OE1 GLU 444 24.116 10.292 16.319 1.00 33.49BTKA ATOM 362 OE2 GLU 444 23.802 8.186 16.886 1.00 36.30 BTKA ATOM 363 CGLU 444 28.353 9.886 14.571 1.00 29.10 BTKA ATOM 364 O GLU 444 28.78110.139 13.445 1.00 29.32 BTKA ATOM 365 N GLU 445 28.173 10.816 15.5021.00 26.25 BTKA ATOM 366 CA GLU 445 28.384 12.226 15.229 1.00 25.93 BTKAATOM 367 CB GLU 445 27.935 13.073 16.420 1.00 24.15 BTKA ATOM 368 CG GLU445 26.435 12.964 16.694 1.00 25.82 BTKA ATOM 369 CD GLU 445 25.86014.206 17.357 1.00 26.92 BTKA ATOM 370 OE1 GLU 445 25.282 14.077 18.4541.00 21.98 BTKA ATOM 371 OE2 GLU 445 25.973 15.308 16.775 1.00 27.91BTKA ATOM 372 C GLU 445 29.817 12.534 14.835 1.00 26.08 BTKA ATOM 373 OGLU 445 30.075 13.505 14.117 1.00 26.43 BTKA ATOM 374 N ALA 446 30.73911.679 15.272 1.00 26.04 BTKA ATOM 375 CA ALA 446 32.152 11.831 14.9491.00 24.80 BTKA ATOM 376 CB ALA 446 32.998 10.909 15.813 1.00 24.38 BTKAATOM 377 C ALA 446 32.346 11.504 13.468 1.00 24.74 BTKA ATOM 378 O ALA446 33.003 12.264 12.746 1.00 23.97 BTKA ATOM 379 N LYS 447 31.75510.391 13.020 1.00 22.24 BTKA ATOM 380 CA LYS 447 31.841 9.971 11.6201.00 20.97 BTKA ATOM 381 CB LYS 447 31.065 8.669 11.380 1.00 20.58 BTKAATOM 382 CG LYS 447 31.559 7.450 12.143 1.00 22.18 BTKA ATOM 383 CD LYS447 30.767 6.201 11.752 1.00 22.45 BTKA ATOM 384 CE LYS 447 30.957 5.06312.752 1.00 23.27 BTKA ATOM 385 NZ LYS 447 32.367 4.595 12.843 1.0025.50 BTKA ATOM 386 C LYS 447 31.223 11.066 10.762 1.00 20.28 BTKA ATOM387 O LYS 447 31.770 11.457 9.727 1.00 18.27 BTKA ATOM 388 N VAL 44830.068 11.544 11.210 1.00 22.03 BTKA ATOM 389 CA VAL 448 29.332 12.59910.532 1.00 23.98 BTKA ATOM 390 CB VAL 448 27.996 12.881 11.266 1.0026.86 BTKA ATOM 391 CG1 VAL 448 27.403 14.218 10.835 1.00 26.50 BTKAATOM 392 CG2 VAL 448 27.013 11.760 10.976 1.00 24.51 BTKA ATOM 393 C VAL448 30.154 13.886 10.382 1.00 23.84 BTKA ATOM 394 O VAL 448 30.17714.479 9.304 1.00 22.58 BTKA ATOM 395 N MET 449 30.848 14.300 11.4391.00 25.01 BTKA ATOM 396 CA MET 449 31.659 15.514 11.375 1.00 26.00 BTKAATOM 397 CB MET 449 32.036 15.992 12.775 1.00 28.34 BTKA ATOM 398 CG MET449 30.941 16.778 13.471 1.00 29.82 BTKA ATOM 399 SD MET 449 31.44617.269 15.116 1.00 32.37 BTKA ATOM 400 CE MET 449 32.786 18.412 14.7211.00 32.43 BTKA ATOM 401 C MET 449 32.910 15.374 10.514 1.00 26.88 BTKAATOM 402 O MET 449 33.239 16.271 9.742 1.00 24.06 BTKA ATOM 403 N MET450 33.610 14.254 10.645 1.00 29.26 BTKA ATOM 404 CA MET 450 34.81114.023 9.849 1.00 31.06 BTKA ATOM 405 CB MET 450 35.558 12.780 10.3361.00 34.52 BTKA ATOM 406 CG MET 450 36.186 12.976 11.709 1.00 35.20 BTKAATOM 407 SD MET 450 37.355 11.695 12.173 1.00 38.54 BTKA ATOM 408 CE MET450 36.287 10.551 13.085 1.00 33.93 BTKA ATOM 409 C MET 450 34.50213.938 8.351 1.00 28.32 BTKA ATOM 410 O MET 450 35.390 14.091 7.517 1.0027.65 BTKA ATOM 411 N ASN 451 33.244 13.680 8.007 1.00 27.43 BTKA ATOM412 CA ASN 451 32.853 13.636 6.603 1.00 25.78 BTKA ATOM 413 CB ASN 45131.515 12.912 6.417 1.00 25.17 BTKA ATOM 414 CG ASN 451 31.681 11.4995.858 1.00 24.38 BTKA ATOM 415 OD1 ASN 451 30.703 10.778 5.673 1.0024.24 BTKA ATOM 416 ND2 ASN 451 32.919 11.104 5.576 1.00 27.13 BTKA ATOM417 C ASN 451 32.781 15.071 6.073 1.00 24.17 BTKA ATOM 418 O ASN 45132.831 15.308 4.862 1.00 23.10 BTKA ATOM 419 N LEU 452 32.656 16.0256.989 1.00 23.71 BTKA ATOM 420 CA LEU 452 32.616 17.436 6.627 1.00 21.99BTKA ATOM 421 CB LEU 452 32.023 18.279 7.767 1.00 18.83 BTKA ATOM 422 CGLEU 452 30.602 18.795 7.552 1.00 14.55 BTKA ATOM 423 CD1 LEU 452 29.72417.669 7.063 1.00 13.88 BTKA ATOM 424 CD2 LEU 452 30.064 19.402 8.8281.00 16.37 BTKA ATOM 425 C LEU 452 34.055 17.854 6.387 1.00 22.15 BTKAATOM 426 O LEU 452 34.966 17.356 7.041 1.00 26.28 BTKA ATOM 427 N SER453 34.267 18.720 5.414 1.00 18.69 BTKA ATOM 428 CA SER 453 35.59819.194 5.117 1.00 17.44 BTKA ATOM 429 CB SER 453 36.468 18.074 4.5521.00 20.39 BTKA ATOM 430 OG SER 453 37.270 17.498 5.569 1.00 32.76 BTKAATOM 431 C SER 453 35.551 20.344 4.147 1.00 15.35 BTKA ATOM 432 O SER453 34.960 20.253 3.083 1.00 16.35 BTKA ATOM 433 N HIS 454 36.153 21.4454.554 1.00 11.81 BTKA ATOM 434 CA HIS 454 36.240 22.647 3.753 1.00 9.84BTKA ATOM 435 CB HIS 454 34.942 23.469 3.833 1.00 11.56 BTKA ATOM 436 CGHIS 454 34.869 24.572 2.821 1.00 5.59 BTKA ATOM 437 CD2 HIS 454 34.34524.601 1.574 1.00 3.51 BTKA ATOM 438 ND1 HIS 454 35.448 25.806 3.0201.00 2.00 BTKA ATOM 439 CE1 HIS 454 35.292 26.545 1.935 1.00 3.01 BTKAATOM 440 NE2 HIS 454 34.625 25.837 1.044 1.00 4.91 BTKA ATOM 441 C HIS454 37.361 23.382 4.449 1.00 9.19 BTKA ATOM 442 O HIS 454 37.456 23.3315.676 1.00 8.32 BTKA ATOM 443 N GLU 455 38.232 24.028 3.682 1.00 10.17BTKA ATOM 444 CA GLU 455 39.351 24.770 4.262 1.00 10.17 BTKA ATOM 445 CBGLU 455 40.280 25.267 3.154 1.00 13.02 BTKA ATOM 446 CG GLU 455 39.60326.176 2.162 1.00 15.79 BTKA ATOM 447 CD GLU 455 40.544 26.677 1.0911.00 20.82 BTKA ATOM 448 OE1 GLU 455 40.670 27.909 0.940 1.00 24.47 BTKAATOM 449 OE2 GLU 455 41.145 25.840 0.387 1.00 24.08 BTKA ATOM 450 C GLU455 38.913 25.952 5.141 1.00 12.87 BTKA ATOM 451 O GLU 455 39.748 26.6175.762 1.00 14.07 BTKA ATOM 452 N LYS 456 37.611 26.234 5.163 1.00 8.19BTKA ATOM 453 CA LYS 456 37.084 27.334 5.963 1.00 7.61 BTKA ATOM 454 CBLYS 456 36.272 28.282 5.078 1.00 6.39 BTKA ATOM 455 CG LYS 456 37.10228.927 3.974 1.00 9.24 BTKA ATOM 456 CD LYS 456 38.167 29.879 4.537 1.0011.93 BTKA ATOM 457 CE LYS 456 39.236 30.217 3.493 1.00 13.97 BTKA ATOM458 NZ LYS 456 38.693 30.793 2.222 1.00 11.85 BTKA ATOM 459 C LYS 45636.266 26.821 7.152 1.00 5.26 BTKA ATOM 460 O LYS 456 35.500 27.5557.770 1.00 3.31 BTKA ATOM 461 N LEU 457 36.419 25.533 7.429 1.00 7.43BTKA ATOM 462 CA LEU 457 35.747 24.870 8.542 1.00 7.04 BTKA ATOM 463 CBLEU 457 34.833 23.732 8.051 1.00 5.48 BTKA ATOM 464 CG LEU 457 33.42324.015 7.512 1.00 12.38 BTKA ATOM 465 CD1 LEU 457 32.887 22.821 6.7341.00 6.71 BTKA ATOM 466 CD2 LEU 457 32.491 24.355 8.648 1.00 2.00 BTKAATOM 467 C LEU 457 36.886 24.267 9.335 1.00 5.80 BTKA ATOM 468 O LEU 45737.797 23.684 8.756 1.00 8.77 BTKA ATOM 469 N VAL 458 36.897 24.49710.638 1.00 5.47 BTKA ATOM 470 CA VAL 458 37.928 23.925 11.478 1.00 5.34BTKA ATOM 471 CB VAL 458 37.817 24.471 12.907 1.00 5.74 BTKA ATOM 472CG1 VAL 458 38.738 23.703 13.862 1.00 4.86 BTKA ATOM 473 CG2 VAL 45838.169 25.956 12.901 1.00 2.00 BTKA ATOM 474 C VAL 458 37.645 22.42711.404 1.00 9.05 BTKA ATOM 475 O VAL 458 36.517 21.990 11.660 1.00 8.51BTKA ATOM 476 N GLN 459 38.640 21.670 10.947 1.00 12.50 BTKA ATOM 477 CAGLN 459 38.532 20.223 10.769 1.00 11.11 BTKA ATOM 478 CB GLN 459 39.56719.716 9.751 1.00 12.18 BTKA ATOM 479 CG GLN 459 39.885 20.639 8.5881.00 14.96 BTKA ATOM 480 CD GLN 459 38.883 20.575 7.462 1.00 16.30 BTKAATOM 481 OE1 GLN 459 37.686 20.837 7.644 1.00 18.40 BTKA ATOM 482 NE2GLN 459 39.375 20.255 6.265 1.00 15.08 BTKA ATOM 483 C GLN 459 38.73719.413 12.034 1.00 10.27 BTKA ATOM 484 O GLN 459 39.607 19.710 12.8551.00 10.07 BTKA ATOM 485 N LEU 460 37.964 18.345 12.143 1.00 11.55 BTKAATOM 486 CA LEU 460 38.069 17.422 13.253 1.00 12.61 BTKA ATOM 487 CB LEU460 36.702 16.791 13.552 1.00 10.46 BTKA ATOM 488 CG LEU 460 36.48016.009 14.854 1.00 9.21 BTKA ATOM 489 CD1 LEU 460 35.616 14.793 14.5521.00 10.03 BTKA ATOM 490 CD2 LEU 460 37.789 15.552 15.490 1.00 10.95BTKA ATOM 491 C LEU 460 39.012 16.356 12.712 1.00 12.22 BTKA ATOM 492 OLEU 460 38.832 15.883 11.588 1.00 9.11 BTKA ATOM 493 N TYR 461 40.01915.988 13.496 1.00 14.03 BTKA ATOM 494 CA TYR 461 40.970 14.972 13.0631.00 17.98 BTKA ATOM 495 CB TYR 461 42.385 15.311 13.531 1.00 15.90 BTKAATOM 496 CG TYR 461 42.994 16.477 12.797 1.00 14.99 BTKA ATOM 497 CD1TYR 461 43.523 17.553 13.489 1.00 10.88 BTKA ATOM 498 CE1 TYR 461 44.04718.645 12.821 1.00 18.55 BTKA ATOM 499 CD2 TYR 461 43.007 16.517 11.4031.00 18.59 BTKA ATOM 500 CE2 TYR 461 43.532 17.611 10.720 1.00 18.77BTKA ATOM 501 CZ TYR 461 44.046 18.673 11.439 1.00 18.48 BTKA ATOM 502OH TYR 461 44.539 19.774 10.780 1.00 17.96 BTKA ATOM 503 C TYR 46140.593 13.578 13.527 1.00 19.94 BTKA ATOM 504 O TYR 461 40.611 12.63012.747 1.00 20.11 BTKA ATOM 505 N GLY 462 40.226 13.455 14.796 1.0022.97 BTKA ATOM 506 CA GLY 462 39.872 12.155 15.319 1.00 21.20 BTKA ATOM507 C GLY 462 39.280 12.224 16.705 1.00 19.72 BTKA ATOM 508 O GLY 46239.205 13.291 17.320 1.00 15.82 BTKA ATOM 509 N VAL 463 38.841 11.07017.186 1.00 17.64 BTKA ATOM 510 CA VAL 463 38.231 10.961 18.494 1.0019.56 BTKA ATOM 511 CB VAL 463 36.778 10.448 18.397 1.00 14.65 BTKA ATOM512 CG1 VAL 463 35.920 11.446 17.649 1.00 12.04 BTKA ATOM 513 CG2 VAL463 36.737 9.090 17.715 1.00 16.09 BTKA ATOM 514 C VAL 463 39.036 10.00419.345 1.00 22.19 BTKA ATOM 515 O VAL 463 39.563 9.008 18.851 1.00 26.83BTKA ATOM 516 N CYS 464 39.170 10.340 20.617 1.00 26.12 BTKA ATOM 517 CACYS 464 39.893 9.505 21.559 1.00 28.36 BTKA ATOM 518 CB CYS 464 41.07710.279 22.153 1.00 28.93 BTKA ATOM 519 SG CYS 464 42.375 9.282 22.9571.00 33.22 BTKA ATOM 520 C CYS 464 38.834 9.182 22.613 1.00 31.37 BTKAATOM 521 O CYS 464 38.850 9.707 23.726 1.00 32.82 BTKA ATOM 522 N THR465 37.859 8.377 22.204 1.00 32.79 BTKA ATOM 523 CA THR 465 36.759 7.96823.071 1.00 33.01 BTKA ATOM 524 CB THR 465 35.521 7.569 22.227 1.0031.07 BTKA ATOM 525 OG1 THR 465 35.870 6.490 21.350 1.00 30.45 BTKA ATOM526 CG2 THR 465 35.026 8.741 21.397 1.00 28.93 BTKA ATOM 527 C THR 46537.150 6.759 23.921 1.00 34.05 BTKA ATOM 528 O THR 465 36.283 6.01024.378 1.00 31.83 BTKA ATOM 529 N LYS 466 38.447 6.571 24.138 1.00 35.70BTKA ATOM 530 CA LYS 466 38.926 5.426 24.901 1.00 36.53 BTKA ATOM 531 CBLYS 466 40.447 5.308 24.793 1.00 35.48 BTKA ATOM 532 CG LYS 466 40.9554.991 23.376 1.00 38.68 BTKA ATOM 533 CD LYS 466 40.542 3.589 22.8941.00 39.29 BTKA ATOM 534 CE LYS 466 39.081 3.514 22.451 1.00 38.59 BTKAATOM 535 NZ LYS 466 38.664 2.137 22.077 1.00 40.01 BTKA ATOM 536 C LYS466 38.461 5.332 26.349 1.00 36.75 BTKA ATOM 537 O LYS 466 39.215 5.62427.278 1.00 34.39 BTKA ATOM 538 N GLN 467 37.226 4.861 26.513 1.00 37.31BTKA ATOM 539 CA GLN 467 36.588 4.671 27.809 1.00 38.68 BTKA ATOM 540 CBGLN 467 37.121 3.402 28.476 1.00 36.64 BTKA ATOM 541 CG GLN 467 36.2492.166 28.246 1.00 35.25 BTKA ATOM 542 CD GLN 467 35.842 1.967 26.7871.00 33.56 BTKA ATOM 543 OE1 GLN 467 36.529 2.412 25.864 1.00 32.22 BTKAATOM 544 NE2 GLN 467 34.716 1.289 26.578 1.00 27.03 BTKA ATOM 545 C GLN467 36.671 5.870 28.743 1.00 40.26 BTKA ATOM 546 O GLN 467 35.659 6.53129.004 1.00 43.24 BTKA ATOM 547 N ARG 468 37.860 6.118 29.282 1.00 40.19BTKA ATOM 548 CA ARG 468 38.082 7.248 30.173 1.00 38.09 BTKA ATOM 549 CBARG 468 39.501 7.183 30.746 1.00 35.92 BTKA ATOM 550 CG ARG 468 39.8015.921 31.551 1.00 30.86 BTKA ATOM 551 CD ARG 468 38.832 5.707 32.7191.00 32.42 BTKA ATOM 552 NE ARG 468 37.508 5.243 32.293 1.00 33.04 BTKAATOM 553 CZ ARG 468 37.243 4.020 31.837 1.00 35.40 BTKA ATOM 554 NH1 ARG468 38.206 3.109 31.740 1.00 37.18 BTKA ATOM 555 NH2 ARG 468 36.0103.707 31.465 1.00 35.12 BTKA ATOM 556 C ARG 468 37.861 8.506 29.328 1.0037.39 BTKA ATOM 557 O ARG 468 37.805 8.408 28.105 1.00 37.02 BTKA ATOM558 N PRO 469 37.755 9.695 29.961 1.00 37.24 BTKA ATOM 559 CD PRO 46938.219 9.958 31.336 1.00 35.17 BTKA ATOM 560 CA PRO 469 37.532 10.97129.266 1.00 36.80 BTKA ATOM 561 CB PRO 469 38.542 11.886 29.943 1.0036.83 BTKA ATOM 562 CG PRO 469 38.390 11.487 31.363 1.00 35.94 BTKA ATOM563 C PRO 469 37.672 10.973 27.742 1.00 34.06 BTKA ATOM 564 O PRO 46938.733 10.653 27.196 1.00 32.99 BTKA ATOM 565 N ILE 470 36.569 11.28627.066 1.00 33.42 BTKA ATOM 566 CA ILE 470 36.537 11.338 25.608 1.0029.80 BTKA ATOM 567 CB ILE 470 35.096 11.277 25.068 1.00 28.92 BTKA ATOM568 CG2 ILE 470 35.095 11.469 23.561 1.00 28.43 BTKA ATOM 569 CG1 ILE470 34.434 9.950 25.447 1.00 32.53 BTKA ATOM 570 CD ILE 470 32.980 9.85825.017 1.00 31.41 BTKA ATOM 571 C ILE 470 37.156 12.645 25.148 1.0028.29 BTKA ATOM 572 O ILE 470 36.724 13.725 25.563 1.00 28.16 BTKA ATOM573 N PHE 471 38.171 12.542 24.302 1.00 26.48 BTKA ATOM 574 CA PHE 47138.848 13.718 23.782 1.00 23.24 BTKA ATOM 575 CB PHE 471 40.362 13.62324.005 1.00 26.91 BTKA ATOM 576 CG PHE 471 40.753 12.964 25.294 1.0033.25 BTKA ATOM 577 CD1 PHE 471 40.457 13.560 26.517 1.00 34.40 BTKAATOM 578 CD2 PHE 471 41.419 11.742 25.286 1.00 33.15 BTKA ATOM 579 CE1PHE 471 40.821 12.949 27.708 1.00 37.94 BTKA ATOM 580 CE2 PHE 471 41.78711.120 26.474 1.00 37.98 BTKA ATOM 581 CZ PHE 471 41.489 11.723 27.6871.00 38.55 BTKA ATOM 582 C PHE 471 38.589 13.837 22.289 1.00 19.98 BTKAATOM 583 O PHE 471 38.237 12.862 21.614 1.00 18.06 BTKA ATOM 584 N ILE472 38.796 15.038 21.776 1.00 15.89 BTKA ATOM 585 CA ILE 472 38.62415.310 20.367 1.00 16.13 BTKA ATOM 586 CB ILE 472 37.214 15.928 20.0681.00 19.20 BTKA ATOM 587 CG2 ILE 472 37.237 17.445 20.155 1.00 21.36BTKA ATOM 588 CG1 ILE 472 36.746 15.519 18.672 1.00 22.75 BTKA ATOM 589CD ILE 472 35.491 16.217 18.204 1.00 19.43 BTKA ATOM 590 C ILE 47239.763 16.270 20.030 1.00 15.65 BTKA ATOM 591 O ILE 472 40.164 17.07620.876 1.00 14.58 BTKA ATOM 592 N ILE 473 40.374 16.081 18.861 1.0012.55 BTKA ATOM 593 CA ILE 473 41.460 16.941 18.410 1.00 8.29 BTKA ATOM594 CB ILE 473 42.760 16.179 18.121 1.00 6.11 BTKA ATOM 595 CG2 ILE 47343.512 15.930 19.394 1.00 8.19 BTKA ATOM 596 CG1 ILE 473 42.469 14.89617.351 1.00 12.26 BTKA ATOM 597 CD ILE 473 43.722 14.129 16.949 1.0012.28 BTKA ATOM 598 C ILE 473 41.023 17.624 17.140 1.00 10.43 BTKA ATOM599 O ILE 473 40.655 16.974 16.163 1.00 10.61 BTKA ATOM 600 N THR 47441.039 18.943 17.169 1.00 10.11 BTKA ATOM 601 CA THR 474 40.646 19.74016.031 1.00 12.13 BTKA ATOM 602 CB THR 474 39.527 20.724 16.452 1.0013.64 BTKA ATOM 603 OG1 THR 474 39.496 20.831 17.885 1.00 11.89 BTKAATOM 604 CG2 THR 474 38.169 20.231 15.967 1.00 14.36 BTKA ATOM 605 C THR474 41.897 20.487 15.586 1.00 12.41 BTKA ATOM 606 O THR 474 42.91420.444 16.278 1.00 12.99 BTKA ATOM 607 N GLU 475 41.862 21.114 14.4131.00 14.37 BTKA ATOM 608 CA GLU 475 43.032 21.851 13.951 1.00 14.93 BTKAATOM 609 CB GLU 475 42.927 22.210 12.462 1.00 14.14 BTKA ATOM 610 CG GLU475 41.841 23.163 12.075 1.00 18.34 BTKA ATOM 611 CD GLU 475 41.88723.516 10.590 1.00 18.18 BTKA ATOM 612 OE1 GLU 475 42.827 24.212 10.1431.00 19.64 BTKA ATOM 613 OE2 GLU 475 40.976 23.102 9.860 1.00 17.68 BTKAATOM 614 C GLU 475 43.267 23.084 14.813 1.00 15.03 BTKA ATOM 615 O GLU475 42.311 23.751 15.216 1.00 16.87 BTKA ATOM 616 N TYR 476 44.53323.327 15.156 1.00 16.03 BTKA ATOM 617 CA TYR 476 44.938 24.462 15.9851.00 12.78 BTKA ATOM 618 CB TYR 476 46.367 24.263 16.516 1.00 14.76 BTKAATOM 619 CG TYR 476 46.849 25.389 17.397 1.00 17.47 BTKA ATOM 620 CD1TYR 476 46.426 25.491 18.719 1.00 21.65 BTKA ATOM 621 CE1 TYR 476 46.80626.566 19.519 1.00 18.11 BTKA ATOM 622 CD2 TYR 476 47.676 26.394 16.8951.00 16.67 BTKA ATOM 623 CE2 TYR 476 48.059 27.477 17.690 1.00 15.07BTKA ATOM 624 CZ TYR 476 47.617 27.555 19.000 1.00 20.25 BTKA ATOM 625OH TYR 476 47.963 28.621 19.801 1.00 22.07 BTKA ATOM 626 C TYR 47644.864 25.760 15.202 1.00 9.86 BTKA ATOM 627 O TYR 476 45.291 25.82214.053 1.00 12.02 BTKA ATOM 628 N MET 477 44.341 26.798 15.850 1.0012.43 BTKA ATOM 629 CA MET 477 44.180 28.122 15.248 1.00 10.82 BTKA ATOM630 CB MET 477 42.690 28.470 15.173 1.00 13.68 BTKA ATOM 631 CG MET 47741.854 27.466 14.373 1.00 12.55 BTKA ATOM 632 SD MET 477 42.224 27.50012.622 1.00 8.47 BTKA ATOM 633 CE MET 477 41.240 28.862 12.158 1.00 8.85BTKA ATOM 634 C MET 477 44.923 29.171 16.076 1.00 8.89 BTKA ATOM 635 OMET 477 44.402 29.665 17.076 1.00 10.46 BTKA ATOM 636 N ALA 478 46.11229.547 15.613 1.00 8.05 BTKA ATOM 637 CA ALA 478 46.980 30.503 16.3001.00 6.04 BTKA ATOM 638 CB ALA 478 48.218 30.762 15.478 1.00 6.02 BTKAATOM 639 C ALA 478 46.437 31.822 16.827 1.00 7.42 BTKA ATOM 640 O ALA478 46.895 32.297 17.862 1.00 9.51 BTKA ATOM 641 N ASN 479 45.508 32.45216.127 1.00 8.70 BTKA ATOM 642 CA ASN 479 44.997 33.721 16.625 1.0011.12 BTKA ATOM 643 CB ASN 479 44.736 34.705 15.482 1.00 10.56 BTKA ATOM644 CG ASN 479 46.014 35.189 14.823 1.00 10.54 BTKA ATOM 645 OD1 ASN 47946.162 35.116 13.607 1.00 14.22 BTKA ATOM 646 ND2 ASN 479 46.944 35.69315.623 1.00 5.93 BTKA ATOM 647 C ASN 479 43.778 33.594 17.527 1.00 10.80BTKA ATOM 648 O ASN 479 43.300 34.593 18.066 1.00 13.56 BTKA ATOM 649 NGLY 480 43.309 32.371 17.742 1.00 13.64 BTKA ATOM 650 CA GLY 480 42.15332.165 18.600 1.00 18.12 BTKA ATOM 651 C GLY 480 40.822 32.436 17.9191.00 18.79 BTKA ATOM 652 O GLY 480 40.670 32.194 16.723 1.00 18.15 BTKAATOM 653 N CYS 481 39.844 32.921 18.679 1.00 20.27 BTKA ATOM 654 CA CYS481 38.534 33.210 18.108 1.00 16.03 BTKA ATOM 655 CB CYS 481 37.42933.058 19.155 1.00 12.24 BTKA ATOM 656 SG CYS 481 37.336 34.396 20.3321.00 19.49 BTKA ATOM 657 C CYS 481 38.471 34.591 17.466 1.00 14.17 BTKAATOM 658 O CYS 481 39.155 35.525 17.895 1.00 12.70 BTKA ATOM 659 N LEU482 37.617 34.710 16.457 1.00 13.70 BTKA ATOM 660 CA LEU 482 37.41935.940 15.711 1.00 14.10 BTKA ATOM 661 CB LEU 482 36.332 35.727 14.6581.00 15.16 BTKA ATOM 662 CG LEU 482 35.978 36.880 13.718 1.00 15.54 BTKAATOM 663 CD1 LEU 482 37.163 37.237 12.839 1.00 13.49 BTKA ATOM 664 CD2LEU 482 34.792 36.478 12.866 1.00 11.61 BTKA ATOM 665 C LEU 482 37.04237.100 16.620 1.00 13.30 BTKA ATOM 666 O LEU 482 37.436 38.235 16.3711.00 11.50 BTKA ATOM 667 N LEU 483 36.283 36.816 17.674 1.00 14.77 BTKAATOM 668 CA LEU 483 35.861 37.856 18.604 1.00 18.16 BTKA ATOM 669 CB LEU483 34.949 37.266 19.682 1.00 16.94 BTKA ATOM 670 CG LEU 483 34.14638.245 20.538 1.00 14.08 BTKA ATOM 671 CD1 LEU 483 33.408 39.261 19.6671.00 16.88 BTKA ATOM 672 CD2 LEU 483 33.162 37.464 21.361 1.00 14.16BTKA ATOM 673 C LEU 483 37.079 38.543 19.224 1.00 18.15 BTKA ATOM 674 OLEU 483 37.198 39.770 19.181 1.00 17.24 BTKA ATOM 675 N ASN 484 38.00937.739 19.729 1.00 18.40 BTKA ATOM 676 CA ASN 484 39.238 38.239 20.3401.00 17.40 BTKA ATOM 677 CB ASN 484 40.024 37.078 20.957 1.00 20.05 BTKAATOM 678 CG ASN 484 41.426 37.474 21.390 1.00 22.96 BTKA ATOM 679 OD1ASN 484 41.687 38.628 21.741 1.00 27.75 BTKA ATOM 680 ND2 ASN 484 42.33836.511 21.374 1.00 26.58 BTKA ATOM 681 C ASN 484 40.086 38.925 19.2861.00 16.06 BTKA ATOM 682 O ASN 484 40.682 39.971 19.535 1.00 22.07 BTKAATOM 683 N TYR 485 40.101 38.350 18.092 1.00 13.87 BTKA ATOM 684 CA TYR485 40.880 38.889 16.985 1.00 8.60 BTKA ATOM 685 CB TYR 485 40.77537.944 15.791 1.00 5.86 BTKA ATOM 686 CG TYR 485 41.861 38.126 14.7701.00 6.11 BTKA ATOM 687 CD1 TYR 485 43.186 37.815 15.073 1.00 8.26 BTKAATOM 688 CE1 TYR 485 44.193 37.969 14.128 1.00 12.73 BTKA ATOM 689 CD2TYR 485 41.568 38.600 13.492 1.00 11.03 BTKA ATOM 690 CE2 TYR 485 42.57538.763 12.535 1.00 12.88 BTKA ATOM 691 CZ TYR 485 43.881 38.445 12.8611.00 13.61 BTKA ATOM 692 OH TYR 485 44.873 38.605 11.920 1.00 19.94 BTKAATOM 693 C TYR 485 40.432 40.296 16.587 1.00 9.48 BTKA ATOM 694 O TYR485 41.250 41.203 16.394 1.00 8.68 BTKA ATOM 695 N LEU 486 39.121 40.47216.516 1.00 8.14 BTKA ATOM 696 CA LEU 486 38.504 41.729 16.137 1.0010.39 BTKA ATOM 697 CB LEU 486 36.996 41.521 15.971 1.00 7.77 BTKA ATOM698 CG LEU 486 36.398 41.527 14.560 1.00 10.49 BTKA ATOM 699 CD1 LEU 48637.380 41.001 13.537 1.00 13.85 BTKA ATOM 700 CD2 LEU 486 35.114 40.69914.561 1.00 13.88 BTKA ATOM 701 C LEU 486 38.770 42.885 17.088 1.00 9.35BTKA ATOM 702 O LEU 486 38.730 44.047 16.679 1.00 10.01 BTKA ATOM 703 NARG 487 39.022 42.585 18.353 1.00 11.39 BTKA ATOM 704 CA ARG 487 39.26943.634 19.337 1.00 13.42 BTKA ATOM 705 CB ARG 487 38.530 43.331 20.6231.00 12.34 BTKA ATOM 706 CG ARG 487 37.048 43.342 20.498 1.00 6.56 BTKAATOM 707 CD ARG 487 36.480 42.775 21.757 1.00 9.94 BTKA ATOM 708 NE ARG487 35.036 42.696 21.683 1.00 10.94 BTKA ATOM 709 CZ ARG 487 34.32341.676 22.134 1.00 8.89 BTKA ATOM 710 NH1 ARG 487 34.917 40.631 22.7001.00 8.34 BTKA ATOM 711 NH2 ARG 487 33.004 41.715 22.036 1.00 6.96 BTKAATOM 712 C ARG 487 40.718 43.882 19.691 1.00 15.16 BTKA ATOM 713 O ARG487 41.069 45.007 20.043 1.00 15.60 BTKA ATOM 714 N GLU 488 41.54242.835 19.625 1.00 21.25 BTKA ATOM 715 CA GLU 488 42.958 42.918 19.9801.00 22.43 BTKA ATOM 716 CB GLU 488 43.576 41.513 20.072 1.00 20.93 BTKAATOM 717 CG GLU 488 43.928 40.849 18.742 1.00 22.66 BTKA ATOM 718 CD GLU488 44.657 39.525 18.926 1.00 25.51 BTKA ATOM 719 OE1 GLU 488 45.80939.523 19.417 1.00 25.84 BTKA ATOM 720 OE2 GLU 488 44.072 38.476 18.5901.00 29.76 BTKA ATOM 721 C GLU 488 43.813 43.825 19.095 1.00 24.56 BTKAATOM 722 O GLU 488 43.294 44.710 18.418 1.00 24.48 BTKA ATOM 723 N MET489 45.130 43.609 19.127 1.00 28.65 BTKA ATOM 724 CA MET 489 46.09344.396 18.351 1.00 31.30 BTKA ATOM 725 CB MET 489 47.494 43.788 18.4661.00 31.45 BTKA ATOM 726 CG MET 489 48.348 44.318 19.616 1.00 29.69 BTKAATOM 727 SD MET 489 47.736 43.928 21.263 1.00 34.34 BTKA ATOM 728 CE MET489 46.980 45.509 21.726 1.00 31.43 BTKA ATOM 729 C MET 489 45.73644.554 16.880 1.00 31.31 BTKA ATOM 730 O MET 489 46.058 45.571 16.2631.00 28.54 BTKA ATOM 731 N ARG 490 45.066 43.553 16.319 1.00 32.07 BTKAATOM 732 CA ARG 490 44.671 43.593 14.914 1.00 31.59 BTKA ATOM 733 CB ARG490 44.288 42.197 14.419 1.00 28.74 BTKA ATOM 734 CG ARG 490 45.45441.270 14.138 1.00 27.20 BTKA ATOM 735 CD ARG 490 45.992 40.612 15.4061.00 29.57 BTKA ATOM 736 NE ARG 490 47.097 41.349 16.016 1.00 30.05 BTKAATOM 737 CZ ARG 490 48.120 40.767 16.631 1.00 25.67 BTKA ATOM 738 NH1ARG 490 48.180 39.446 16.723 1.00 24.51 BTKA ATOM 739 NH2 ARG 490 49.09841.505 17.129 1.00 26.01 BTKA ATOM 740 C ARG 490 43.524 44.567 14.6321.00 31.84 BTKA ATOM 741 O ARG 490 43.181 44.797 13.475 1.00 31.98 BTKAATOM 742 N HIS 491 42.977 45.166 15.688 1.00 31.55 BTKA ATOM 743 CA HIS491 41.863 46.110 15.596 1.00 33.20 BTKA ATOM 744 CB HIS 491 41.77046.937 16.885 1.00 33.15 BTKA ATOM 745 CG HIS 491 40.366 47.220 17.3281.00 34.60 BTKA ATOM 746 CD2 HIS 491 39.877 48.096 18.237 1.00 34.07BTKA ATOM 747 ND1 HIS 491 39.277 46.525 16.847 1.00 33.41 BTKA ATOM 748CE1 HIS 491 38.180 46.956 17.444 1.00 31.28 BTKA ATOM 749 NE2 HIS 49138.517 47.909 18.292 1.00 32.75 BTKA ATOM 750 C HIS 491 41.927 47.05514.401 1.00 35.09 BTKA ATOM 751 O HIS 491 40.892 47.404 13.828 1.0037.68 BTKA ATOM 752 N ARG 492 43.136 47.484 14.046 1.00 34.42 BTKA ATOM753 CA ARG 492 43.341 48.393 12.922 1.00 31.97 BTKA ATOM 754 CB ARG 49244.726 49.047 13.013 1.00 33.81 BTKA ATOM 755 CG ARG 492 44.925 49.99014.200 1.00 34.48 BTKA ATOM 756 CD ARG 492 44.943 49.258 15.537 1.0035.35 BTKA ATOM 757 NE ARG 492 46.024 48.277 15.623 1.00 37.69 BTKA ATOM758 CZ ARG 492 47.317 48.584 15.713 1.00 41.57 BTKA ATOM 759 NH1 ARG 49247.711 49.853 15.725 1.00 42.87 BTKA ATOM 760 NH2 ARG 492 48.223 47.61915.805 1.00 41.91 BTKA ATOM 761 C ARG 492 43.208 47.640 11.600 1.0029.95 BTKA ATOM 762 O ARG 492 44.205 47.236 11.004 1.00 30.14 BTKA ATOM763 N PHE 493 41.972 47.420 11.169 1.00 25.31 BTKA ATOM 764 CA PHE 49341.722 46.704 9.927 1.00 25.42 BTKA ATOM 765 CB PHE 493 40.492 45.79010.069 1.00 21.25 BTKA ATOM 766 CG PHE 493 40.713 44.585 10.943 1.0020.61 BTKA ATOM 767 CD1 PHE 493 41.466 43.508 10.488 1.00 19.35 BTKAATOM 768 CD2 PHE 493 40.151 44.518 12.215 1.00 18.30 BTKA ATOM 769 CE1PHE 493 41.656 42.382 11.290 1.00 19.86 BTKA ATOM 770 CE2 PHE 493 40.33543.396 13.024 1.00 18.27 BTKA ATOM 771 CZ PHE 493 41.084 42.328 12.5651.00 14.30 BTKA ATOM 772 C PHE 493 41.532 47.663 8.751 1.00 28.44 BTKAATOM 773 O PHE 493 42.235 48.669 8.625 1.00 28.08 BTKA ATOM 774 N GLN494 40.585 47.315 7.884 1.00 28.76 BTKA ATOM 775 CA GLN 494 40.22248.074 6.695 1.00 25.62 BTKA ATOM 776 CB GLN 494 41.401 48.139 5.7231.00 26.48 BTKA ATOM 777 CG GLN 494 41.889 46.775 5.258 1.00 31.44 BTKAATOM 778 CD GLN 494 43.164 46.832 4.437 1.00 31.26 BTKA ATOM 779 OE1 GLN494 43.411 45.961 3.598 1.00 31.88 BTKA ATOM 780 NE2 GLN 494 43.98947.846 4.679 1.00 31.84 BTKA ATOM 781 C GLN 494 39.082 47.251 6.098 1.0023.81 BTKA ATOM 782 O GLN 494 39.051 46.032 6.270 1.00 22.09 BTKA ATOM783 N THR 495 38.140 47.908 5.429 1.00 24.19 BTKA ATOM 784 CA THR 49536.991 47.241 4.820 1.00 21.26 BTKA ATOM 785 CB THR 495 36.291 48.1663.820 1.00 24.52 BTKA ATOM 786 OG1 THR 495 36.242 49.495 4.352 1.0028.48 BTKA ATOM 787 CG2 THR 495 34.875 47.661 3.529 1.00 24.14 BTKA ATOM788 C THR 495 37.376 45.978 4.061 1.00 18.91 BTKA ATOM 789 O THR 49536.650 44.982 4.081 1.00 19.68 BTKA ATOM 790 N GLN 496 38.528 46.0303.400 1.00 19.97 BTKA ATOM 791 CA GLN 496 39.026 44.915 2.612 1.00 19.83BTKA ATOM 792 CB GLN 496 40.354 45.289 1.954 1.00 18.70 BTKA ATOM 793 CGGLN 496 40.198 46.264 0.789 1.00 23.77 BTKA ATOM 794 CD GLN 496 39.58347.592 1.201 1.00 26.56 BTKA ATOM 795 OE1 GLN 496 39.831 48.089 2.3011.00 27.00 BTKA ATOM 796 NE2 GLN 496 38.762 48.166 0.328 1.00 24.89 BTKAATOM 797 C GLN 496 39.162 43.639 3.431 1.00 18.82 BTKA ATOM 798 O GLN496 38.719 42.570 3.001 1.00 18.80 BTKA ATOM 799 N GLN 497 39.716 43.7734.634 1.00 18.01 BTKA ATOM 800 CA GLN 497 39.910 42.644 5.542 1.00 16.28BTKA ATOM 801 CB GLN 497 40.942 43.003 6.613 1.00 15.98 BTKA ATOM 802 CGGLN 497 42.329 43.311 6.059 1.00 16.87 BTKA ATOM 803 CD GLN 497 43.25843.930 7.096 1.00 21.37 BTKA ATOM 804 OE1 GLN 497 43.364 45.153 7.2021.00 21.47 BTKA ATOM 805 NE2 GLN 497 43.936 43.087 7.864 1.00 22.57 BTKAATOM 806 C GLN 497 38.586 42.243 6.198 1.00 12.86 BTKA ATOM 807 O GLN497 38.377 41.085 6.546 1.00 10.95 BTKA ATOM 808 N LEU 498 37.683 43.2026.342 1.00 10.21 BTKA ATOM 809 CA LEU 498 36.388 42.924 6.944 1.00 9.62BTKA ATOM 810 CB LEU 498 35.682 44.230 7.306 1.00 10.33 BTKA ATOM 811 CGLEU 498 35.894 44.842 8.700 1.00 8.10 BTKA ATOM 812 CD1 LEU 498 37.22844.470 9.307 1.00 11.10 BTKA ATOM 813 CD2 LEU 498 35.750 46.335 8.6111.00 6.67 BTKA ATOM 814 C LEU 498 35.535 42.078 6.004 1.00 10.86 BTKAATOM 815 O LEU 498 34.959 41.070 6.420 1.00 12.75 BTKA ATOM 816 N LEU499 35.514 42.429 4.722 1.00 9.42 BTKA ATOM 817 CA LEU 499 34.725 41.6613.764 1.00 11.87 BTKA ATOM 818 CB LEU 499 34.588 42.401 2.424 1.00 8.90BTKA ATOM 819 CG LEU 499 33.332 42.005 1.634 1.00 9.18 BTKA ATOM 820 CD1LEU 499 32.100 42.507 2.347 1.00 4.94 BTKA ATOM 821 CD2 LEU 499 33.37142.551 0.226 1.00 9.87 BTKA ATOM 822 C LEU 499 35.327 40.270 3.548 1.0012.95 BTKA ATOM 823 O LEU 499 34.592 39.287 3.410 1.00 16.98 BTKA ATOM824 N GLU 500 36.658 40.190 3.515 1.00 13.94 BTKA ATOM 825 CA GLU 50037.369 38.922 3.327 1.00 13.24 BTKA ATOM 826 CB GLU 500 38.887 39.1503.415 1.00 16.16 BTKA ATOM 827 CG GLU 500 39.771 37.887 3.353 1.00 20.06BTKA ATOM 828 CD GLU 500 39.721 37.146 2.016 1.00 22.89 BTKA ATOM 829OE1 GLU 500 39.841 35.901 2.032 1.00 26.56 BTKA ATOM 830 OE2 GLU 50039.571 37.791 0.953 1.00 24.13 BTKA ATOM 831 C GLU 500 36.923 37.9094.377 1.00 10.91 BTKA ATOM 832 O GLU 500 36.671 36.739 4.068 1.00 10.95BTKA ATOM 833 N MET 501 36.795 38.377 5.614 1.00 11.96 BTKA ATOM 834 CAMET 501 36.365 37.533 6.722 1.00 11.06 BTKA ATOM 835 CB MET 501 36.44938.289 8.047 1.00 10.47 BTKA ATOM 836 CG MET 501 37.854 38.714 8.4151.00 13.77 BTKA ATOM 837 SD MET 501 37.954 39.544 10.013 1.00 20.98 BTKAATOM 838 CE MET 501 39.741 39.784 10.118 1.00 14.07 BTKA ATOM 839 C MET501 34.947 37.032 6.503 1.00 9.64 BTKA ATOM 840 O MET 501 34.661 35.8766.772 1.00 8.63 BTKA ATOM 841 N CYS 502 34.057 37.897 6.027 1.00 11.41BTKA ATOM 842 CA CYS 502 32.676 37.493 5.768 1.00 13.88 BTKA ATOM 843 CBCYS 502 31.827 38.688 5.321 1.00 16.90 BTKA ATOM 844 SG CYS 502 31.75140.046 6.496 1.00 14.48 BTKA ATOM 845 C CYS 502 32.642 36.410 4.688 1.0012.88 BTKA ATOM 846 O CYS 502 31.844 35.473 4.763 1.00 14.89 BTKA ATOM847 N LYS 503 33.508 36.552 3.688 1.00 13.23 BTKA ATOM 848 CA LYS 50333.622 35.597 2.586 1.00 10.87 BTKA ATOM 849 CB LYS 503 34.606 36.1321.539 1.00 12.02 BTKA ATOM 850 CG LYS 503 34.948 35.161 0.415 1.00 11.71BTKA ATOM 851 CD LYS 503 35.937 35.789 −0.550 1.00 17.80 BTKA ATOM 852CE LYS 503 36.351 34.811 −1.638 1.00 18.39 BTKA ATOM 853 NZ LYS 50337.022 35.506 −2.763 1.00 19.21 BTKA ATOM 854 C LYS 503 34.082 34.2243.095 1.00 10.24 BTKA ATOM 855 O LYS 503 33.471 33.203 2.765 1.00 9.05BTKA ATOM 856 N ASP 504 35.131 34.204 3.921 1.00 10.68 BTKA ATOM 857 CAASP 504 35.653 32.954 4.486 1.00 7.72 BTKA ATOM 858 CB ASP 504 36.74833.229 5.530 1.00 8.01 BTKA ATOM 859 CG ASP 504 37.947 33.983 4.972 1.0012.07 BTKA ATOM 860 OD1 ASP 504 38.633 34.654 5.773 1.00 7.24 BTKA ATOM861 OD2 ASP 504 38.225 33.906 3.756 1.00 18.62 BTKA ATOM 862 C ASP 50434.538 32.178 5.185 1.00 7.40 BTKA ATOM 863 O ASP 504 34.425 30.9575.041 1.00 7.01 BTKA ATOM 864 N VAL 505 33.740 32.896 5.971 1.00 8.06BTKA ATOM 865 CA VAL 505 32.640 32.302 6.726 1.00 6.77 BTKA ATOM 866 CBVAL 505 32.097 33.280 7.799 1.00 7.29 BTKA ATOM 867 CG1 VAL 505 31.03632.590 8.662 1.00 6.82 BTKA ATOM 868 CG2 VAL 505 33.230 33.779 8.6731.00 10.15 BTKA ATOM 869 C VAL 505 31.507 31.854 5.809 1.00 4.31 BTKAATOM 870 O VAL 505 30.924 30.787 6.008 1.00 4.27 BTKA ATOM 871 N CYS 50631.201 32.660 4.803 1.00 7.86 BTKA ATOM 872 CA CYS 506 30.144 32.3313.847 1.00 8.57 BTKA ATOM 873 CB CYS 506 29.838 33.529 2.950 1.00 8.83BTKA ATOM 874 SG CYS 506 28.173 33.501 2.267 1.00 9.16 BTKA ATOM 875 CCYS 506 30.531 31.120 2.987 1.00 8.76 BTKA ATOM 876 O CYS 506 29.66830.406 2.479 1.00 8.42 BTKA ATOM 877 N GLU 507 31.831 30.904 2.810 1.009.14 BTKA ATOM 878 CA GLU 507 32.307 29.765 2.044 1.00 8.13 BTKA ATOM879 CB GLU 507 33.786 29.915 1.707 1.00 7.62 BTKA ATOM 880 CG GLU 50734.049 30.890 0.567 1.00 10.42 BTKA ATOM 881 CD GLU 507 35.508 30.9720.200 1.00 8.86 BTKA ATOM 882 OE1 GLU 507 35.807 31.383 −0.932 1.0014.46 BTKA ATOM 883 OE2 GLU 507 36.364 30.625 1.039 1.00 11.94 BTKA ATOM884 C GLU 507 32.079 28.493 2.836 1.00 4.79 BTKA ATOM 885 O GLU 50731.679 27.467 2.290 1.00 5.50 BTKA ATOM 886 N ALA 508 32.331 28.5604.133 1.00 4.69 BTKA ATOM 887 CA ALA 508 32.132 27.411 5.003 1.00 2.84BTKA ATOM 888 CB ALA 508 32.819 27.647 6.328 1.00 3.35 BTKA ATOM 889 CALA 508 30.640 27.148 5.217 1.00 2.47 BTKA ATOM 890 O ALA 508 30.20826.006 5.312 1.00 3.01 BTKA ATOM 891 N MET 509 29.851 28.214 5.261 1.004.27 BTKA ATOM 892 CA MET 509 28.415 28.096 5.459 1.00 3.24 BTKA ATOM893 CB MET 509 27.829 29.434 5.905 1.00 2.63 BTKA ATOM 894 CG MET 50928.209 29.825 7.328 1.00 5.18 BTKA ATOM 895 SD MET 509 27.764 28.5388.519 1.00 12.83 BTKA ATOM 896 CE MET 509 29.227 28.333 9.323 1.00 11.58BTKA ATOM 897 C MET 509 27.699 27.571 4.224 1.00 4.52 BTKA ATOM 898 OMET 509 26.794 26.748 4.333 1.00 8.63 BTKA ATOM 899 N GLU 510 28.09428.057 3.050 1.00 5.93 BTKA ATOM 900 CA GLU 510 27.504 27.606 1.788 1.007.82 BTKA ATOM 901 CB GLU 510 28.167 28.327 0.615 1.00 7.50 BTKA ATOM902 CG GLU 510 27.557 28.018 −0.737 1.00 18.01 BTKA ATOM 903 CD GLU 51028.399 28.535 −1.898 1.00 21.81 BTKA ATOM 904 OE1 GLU 510 27.811 28.919−2.933 1.00 27.32 BTKA ATOM 905 OE2 GLU 510 29.645 28.544 −1.781 1.0024.20 BTKA ATOM 906 C GLU 510 27.719 26.090 1.671 1.00 5.58 BTKA ATOM907 O GLU 510 26.811 25.347 1.292 1.00 5.09 BTKA ATOM 908 N TYR 51128.918 25.643 2.049 1.00 7.55 BTKA ATOM 909 CA TYR 511 29.269 24.2292.031 1.00 6.74 BTKA ATOM 910 CB TYR 511 30.748 24.049 2.400 1.00 9.67BTKA ATOM 911 CG TYR 511 31.172 22.598 2.511 1.00 14.31 BTKA ATOM 912CD1 TYR 511 31.217 21.774 1.386 1.00 12.15 BTKA ATOM 913 CE1 TYR 51131.526 20.423 1.498 1.00 11.02 BTKA ATOM 914 CD2 TYR 511 31.459 22.0323.751 1.00 13.80 BTKA ATOM 915 CE2 TYR 511 31.768 20.685 3.868 1.0012.93 BTKA ATOM 916 CZ TYR 511 31.796 19.886 2.739 1.00 11.33 BTKA ATOM917 OH TYR 511 32.057 18.545 2.875 1.00 14.81 BTKA ATOM 918 C TYR 51128.368 23.405 2.975 1.00 8.27 BTKA ATOM 919 O TYR 511 27.916 22.3162.611 1.00 8.84 BTKA ATOM 920 N LEU 512 28.121 23.907 4.184 1.00 8.72BTKA ATOM 921 CA LEU 512 27.267 23.188 5.131 1.00 10.18 BTKA ATOM 922 CBLEU 512 27.232 23.878 6.503 1.00 4.04 BTKA ATOM 923 CG LEU 512 28.53423.878 7.307 1.00 3.83 BTKA ATOM 924 CD1 LEU 512 28.300 24.439 8.7031.00 2.00 BTKA ATOM 925 CD2 LEU 512 29.073 22.449 7.386 1.00 2.00 BTKAATOM 926 C LEU 512 25.859 23.061 4.579 1.00 12.90 BTKA ATOM 927 O LEU512 25.251 21.991 4.639 1.00 12.40 BTKA ATOM 928 N GLU 513 25.359 24.1564.012 1.00 13.36 BTKA ATOM 929 CA GLU 513 24.028 24.197 3.428 1.00 11.85BTKA ATOM 930 CB GLU 513 23.777 25.584 2.831 1.00 13.01 BTKA ATOM 931 CGGLU 513 22.368 25.822 2.284 1.00 10.82 BTKA ATOM 932 CD GLU 513 22.15127.264 1.828 1.00 11.92 BTKA ATOM 933 OE1 GLU 513 22.923 27.742 0.9601.00 14.37 BTKA ATOM 934 OE2 GLU 513 21.208 27.919 2.338 1.00 10.65 BTKAATOM 935 C GLU 513 23.852 23.101 2.370 1.00 11.40 BTKA ATOM 936 O GLU513 22.850 22.389 2.375 1.00 9.38 BTKA ATOM 937 N SER 514 24.848 22.9321.502 1.00 13.91 BTKA ATOM 938 CA SER 514 24.785 21.915 0.453 1.00 15.43BTKA ATOM 939 CB SER 514 25.916 22.109 −0.561 1.00 15.20 BTKA ATOM 940OG SER 514 27.179 22.170 0.076 1.00 13.45 BTKA ATOM 941 C SER 514 24.83420.500 1.024 1.00 17.44 BTKA ATOM 942 O SER 514 24.500 19.528 0.343 1.0015.53 BTKA ATOM 943 N LYS 515 25.278 20.391 2.271 1.00 17.30 BTKA ATOM944 CA LYS 515 25.371 19.107 2.943 1.00 12.99 BTKA ATOM 945 CB LYS 51526.740 18.968 3.618 1.00 13.16 BTKA ATOM 946 CG LYS 515 27.920 18.9972.643 1.00 13.40 BTKA ATOM 947 CD LYS 515 27.911 17.783 1.725 1.00 10.90BTKA ATOM 948 CE LYS 515 29.045 17.846 0.731 1.00 9.83 BTKA ATOM 949 NZLYS 515 29.193 16.567 −0.031 1.00 11.46 BTKA ATOM 950 C LYS 515 24.25618.942 3.973 1.00 13.83 BTKA ATOM 951 O LYS 515 24.292 18.024 4.780 1.0015.25 BTKA ATOM 952 N GLN 516 23.265 19.831 3.928 1.00 13.54 BTKA ATOM953 CA GLN 516 22.120 19.814 4.848 1.00 15.50 BTKA ATOM 954 CB GLN 51621.149 18.679 4.498 1.00 20.10 BTKA ATOM 955 CG GLN 516 20.481 18.8123.128 1.00 27.83 BTKA ATOM 956 CD GLN 516 21.461 18.701 1.976 1.00 30.31BTKA ATOM 957 OE1 GLN 516 21.517 19.568 1.107 1.00 31.11 BTKA ATOM 958NE2 GLN 516 22.246 17.634 1.968 1.00 32.70 BTKA ATOM 959 C GLN 51622.547 19.738 6.313 1.00 14.29 BTKA ATOM 960 O GLN 516 21.888 19.1237.155 1.00 10.17 BTKA ATOM 961 N PHE 517 23.674 20.362 6.608 1.00 15.64BTKA ATOM 962 CA PHE 517 24.192 20.388 7.963 1.00 16.92 BTKA ATOM 963 CBPHE 517 25.668 20.004 7.974 1.00 13.86 BTKA ATOM 964 CG PHE 517 26.23019.814 9.349 1.00 14.42 BTKA ATOM 965 CD1 PHE 517 26.109 18.589 9.9961.00 20.02 BTKA ATOM 966 CD2 PHE 517 26.888 20.851 9.994 1.00 13.85 BTKAATOM 967 CE1 PHE 517 26.639 18.398 11.267 1.00 22.95 BTKA ATOM 968 CE2PHE 517 27.421 20.673 11.262 1.00 18.84 BTKA ATOM 969 CZ PHE 517 27.29719.442 11.901 1.00 23.12 BTKA ATOM 970 C PHE 517 24.022 21.814 8.4581.00 19.46 BTKA ATOM 971 O PHE 517 24.510 22.758 7.830 1.00 20.11 BTKAATOM 972 N LEU 518 23.293 21.986 9.551 1.00 18.01 BTKA ATOM 973 CA LEU518 23.091 23.323 10.069 1.00 17.59 BTKA ATOM 974 CB LEU 518 21.60423.598 10.328 1.00 15.17 BTKA ATOM 975 CG LEU 518 20.968 23.286 11.6791.00 15.72 BTKA ATOM 976 CD1 LEU 518 20.619 24.599 12.368 1.00 18.80BTKA ATOM 977 CD2 LEU 518 19.717 22.461 11.477 1.00 16.60 BTKA ATOM 978C LEU 518 23.926 23.569 11.310 1.00 14.94 BTKA ATOM 979 O LEU 518 24.19822.660 12.086 1.00 14.17 BTKA ATOM 980 N HIS 519 24.395 24.801 11.4241.00 15.04 BTKA ATOM 981 CA HIS 519 25.205 25.286 12.538 1.00 15.75 BTKAATOM 982 CB HIS 519 26.276 26.213 11.970 1.00 13.52 BTKA ATOM 983 CG HIS519 27.416 26.469 12.894 1.00 8.55 BTKA ATOM 984 CD2 HIS 519 28.74426.566 12.651 1.00 4.28 BTKA ATOM 985 ND1 HIS 519 27.261 26.635 14.2501.00 2.10 BTKA ATOM 986 CE1 HIS 519 28.444 26.816 14.806 1.00 8.67 BTKAATOM 987 NE2 HIS 519 29.360 26.779 13.858 1.00 4.20 BTKA ATOM 988 C HIS519 24.226 26.090 13.405 1.00 17.47 BTKA ATOM 989 O HIS 519 23.92927.239 13.093 1.00 21.50 BTKA ATOM 990 N ARG 520 23.774 25.510 14.5111.00 15.16 BTKA ATOM 991 CA ARG 520 22.785 26.156 15.382 1.00 15.58 BTKAATOM 992 CB ARG 520 22.065 25.114 16.245 1.00 15.27 BTKA ATOM 993 CG ARG520 21.823 23.780 15.555 1.00 18.29 BTKA ATOM 994 CD ARG 520 20.96622.857 16.392 1.00 20.10 BTKA ATOM 995 NE ARG 520 21.449 22.725 17.7691.00 27.27 BTKA ATOM 996 CZ ARG 520 22.581 22.124 18.127 1.00 27.89 BTKAATOM 997 NH1 ARG 520 23.378 21.592 17.215 1.00 27.36 BTKA ATOM 998 NH2ARG 520 22.904 22.038 19.408 1.00 25.47 BTKA ATOM 999 C ARG 520 23.29427.261 16.290 1.00 16.19 BTKA ATOM 1000 O ARG 520 22.536 27.798 17.0951.00 16.18 BTKA ATOM 1001 N ASP 521 24.557 27.635 16.141 1.00 16.78 BTKAATOM 1002 CA ASP 521 25.128 28.669 16.992 1.00 14.05 BTKA ATOM 1003 CBASP 521 25.668 28.023 18.278 1.00 14.95 BTKA ATOM 1004 CG ASP 521 26.06729.042 19.330 1.00 13.62 BTKA ATOM 1005 OD1 ASP 521 25.579 30.194 19.2781.00 13.41 BTKA ATOM 1006 OD2 ASP 521 26.875 28.681 20.209 1.00 8.70BTKA ATOM 1007 C ASP 521 26.235 29.425 16.269 1.00 11.05 BTKA ATOM 1008O ASP 521 27.409 29.277 16.583 1.00 10.26 BTKA ATOM 1009 N LEU 52225.871 30.188 15.251 1.00 12.24 BTKA ATOM 1010 CA LEU 522 26.868 30.94914.511 1.00 11.62 BTKA ATOM 1011 CB LEU 522 26.451 31.112 13.049 1.0011.48 BTKA ATOM 1012 CG LEU 522 27.453 30.814 11.932 1.00 8.77 BTKA ATOM1013 CD1 LEU 522 26.970 31.571 10.728 1.00 8.36 BTKA ATOM 1014 CD2 LEU522 28.891 31.232 12.269 1.00 10.90 BTKA ATOM 1015 C LEU 522 27.01732.325 15.149 1.00 12.66 BTKA ATOM 1016 O LEU 522 26.043 33.058 15.2861.00 14.12 BTKA ATOM 1017 N ALA 523 28.237 32.657 15.544 1.00 13.37 BTKAATOM 1018 CA ALA 523 28.546 33.941 16.157 1.00 13.35 BTKA ATOM 1019 CBALA 523 28.169 33.934 17.639 1.00 6.92 BTKA ATOM 1020 C ALA 523 30.05034.109 15.989 1.00 13.67 BTKA ATOM 1021 O ALA 523 30.743 33.138 15.6611.00 14.16 BTKA ATOM 1022 N ALA 524 30.552 35.326 16.193 1.00 11.77 BTKAATOM 1023 CA ALA 524 31.980 35.597 16.062 1.00 12.32 BTKA ATOM 1024 CBALA 524 32.262 37.083 16.210 1.00 10.35 BTKA ATOM 1025 C ALA 524 32.77134.809 17.091 1.00 13.86 BTKA ATOM 1026 O ALA 524 33.936 34.468 16.8561.00 17.70 BTKA ATOM 1027 N ARG 525 32.143 34.541 18.237 1.00 13.11 BTKAATOM 1028 CA ARG 525 32.779 33.780 19.302 1.00 13.31 BTKA ATOM 1029 CBARG 525 31.873 33.692 20.533 1.00 14.94 BTKA ATOM 1030 CG ARG 525 30.73632.687 20.422 1.00 16.14 BTKA ATOM 1031 CD ARG 525 30.031 32.492 21.7511.00 13.88 BTKA ATOM 1032 NE ARG 525 29.478 33.746 22.255 1.00 21.28BTKA ATOM 1033 CZ ARG 525 28.257 34.205 21.989 1.00 22.82 BTKA ATOM 1034NH1 ARG 525 27.425 33.522 21.210 1.00 24.36 BTKA ATOM 1035 NH2 ARG 52527.859 35.343 22.536 1.00 21.29 BTKA ATOM 1036 C ARG 525 33.112 32.36918.833 1.00 13.03 BTKA ATOM 1037 O ARG 525 34.027 31.750 19.360 1.0012.07 BTKA ATOM 1038 N ASN 526 32.361 31.873 17.849 1.00 11.96 BTKA ATOM1039 CA ASN 526 32.559 30.533 17.314 1.00 10.29 BTKA ATOM 1040 CB ASN526 31.225 29.871 16.985 1.00 8.11 BTKA ATOM 1041 CG ASN 526 30.71529.039 18.119 1.00 9.90 BTKA ATOM 1042 OD1 ASN 526 31.187 29.165 19.2471.00 11.02 BTKA ATOM 1043 ND2 ASN 526 29.761 28.167 17.836 1.00 15.50BTKA ATOM 1044 C ASN 526 33.475 30.422 16.111 1.00 8.66 BTKA ATOM 1045 OASN 526 33.639 29.341 15.560 1.00 10.60 BTKA ATOM 1046 N CYS 527 34.05631.526 15.678 1.00 6.87 BTKA ATOM 1047 CA CYS 527 34.963 31.476 14.5411.00 8.50 BTKA ATOM 1048 CB CYS 527 34.656 32.610 13.558 1.00 10.13 BTKAATOM 1049 SG CYS 527 33.099 32.432 12.694 1.00 7.24 BTKA ATOM 1050 C CYS527 36.377 31.610 15.081 1.00 9.42 BTKA ATOM 1051 O CYS 527 36.58332.269 16.093 1.00 10.96 BTKA ATOM 1052 N LEU 528 37.331 30.948 14.4391.00 9.95 BTKA ATOM 1053 CA LEU 528 38.732 30.998 14.854 1.00 7.80 BTKAATOM 1054 CB LEU 528 39.222 29.602 15.262 1.00 8.09 BTKA ATOM 1055 CGLEU 528 38.507 28.876 16.411 1.00 4.85 BTKA ATOM 1056 CD1 LEU 528 39.08827.501 16.633 1.00 5.23 BTKA ATOM 1057 CD2 LEU 528 38.623 29.682 17.6871.00 12.77 BTKA ATOM 1058 C LEU 528 39.560 31.539 13.693 1.00 7.58 BTKAATOM 1059 O LEU 528 39.130 31.474 12.533 1.00 8.42 BTKA ATOM 1060 N VAL529 40.725 32.100 14.010 1.00 9.03 BTKA ATOM 1061 CA VAL 529 41.63132.674 13.013 1.00 9.97 BTKA ATOM 1062 CB VAL 529 41.836 34.180 13.2681.00 4.59 BTKA ATOM 1063 CG1 VAL 529 42.609 34.802 12.122 1.00 3.83 BTKAATOM 1064 CG2 VAL 529 40.513 34.871 13.483 1.00 3.81 BTKA ATOM 1065 CVAL 529 43.003 32.008 13.107 1.00 11.90 BTKA ATOM 1066 O VAL 529 43.58131.952 14.193 1.00 16.82 BTKA ATOM 1067 N ASN 530 43.524 31.492 11.9931.00 15.54 BTKA ATOM 1068 CA ASN 530 44.839 30.849 12.016 1.00 16.52BTKA ATOM 1069 CB ASN 530 44.975 29.783 10.918 1.00 15.67 BTKA ATOM 1070CG ASN 530 44.676 30.312 9.512 1.00 17.17 BTKA ATOM 1071 OD1 ASN 53044.972 31.462 9.168 1.00 11.18 BTKA ATOM 1072 ND2 ASN 530 44.111 29.4488.683 1.00 15.71 BTKA ATOM 1073 C ASN 530 45.959 31.886 11.945 1.0018.49 BTKA ATOM 1074 O ASN 530 45.688 33.074 12.064 1.00 23.10 BTKA ATOM1075 N ASP 531 47.208 31.454 11.768 1.00 20.52 BTKA ATOM 1076 CA ASP 53148.329 32.397 11.708 1.00 22.28 BTKA ATOM 1077 CB ASP 531 49.662 31.69512.018 1.00 24.91 BTKA ATOM 1078 CG ASP 531 50.626 32.581 12.834 1.0028.03 BTKA ATOM 1079 OD1 ASP 531 50.883 32.262 14.019 1.00 25.89 BTKAATOM 1080 OD2 ASP 531 51.130 33.595 12.298 1.00 27.88 BTKA ATOM 1081 CASP 531 48.403 33.141 10.370 1.00 24.22 BTKA ATOM 1082 O ASP 531 49.08934.162 10.253 1.00 26.63 BTKA ATOM 1083 N GLN 532 47.693 32.636 9.3651.00 22.72 BTKA ATOM 1084 CA GLN 532 47.663 33.279 8.052 1.00 21.96 BTKAATOM 1085 CB GLN 532 47.438 32.255 6.933 1.00 25.06 BTKA ATOM 1086 CGGLN 532 48.588 31.275 6.710 1.00 29.08 BTKA ATOM 1087 CD GLN 532 48.65330.189 7.765 1.00 32.01 BTKA ATOM 1088 OE1 GLN 532 49.302 30.346 8.8011.00 31.49 BTKA ATOM 1089 NE2 GLN 532 47.971 29.080 7.509 1.00 34.18BTKA ATOM 1090 C GLN 532 46.556 34.333 8.009 1.00 20.47 BTKA ATOM 1091 OGLN 532 46.376 35.018 6.998 1.00 19.50 BTKA ATOM 1092 N GLY 533 45.81434.448 9.109 1.00 19.48 BTKA ATOM 1093 CA GLY 533 44.734 35.409 9.1811.00 17.27 BTKA ATOM 1094 C GLY 533 43.434 34.858 8.632 1.00 16.09 BTKAATOM 1095 O GLY 533 42.411 35.549 8.624 1.00 15.63 BTKA ATOM 1096 N VAL534 43.462 33.606 8.186 1.00 14.60 BTKA ATOM 1097 CA VAL 534 42.26532.984 7.633 1.00 10.73 BTKA ATOM 1098 CB VAL 534 42.579 31.675 6.8691.00 8.97 BTKA ATOM 1099 CG1 VAL 534 41.299 31.097 6.283 1.00 10.35 BTKAATOM 1100 CG2 VAL 534 43.589 31.940 5.756 1.00 5.02 BTKA ATOM 1101 C VAL534 41.257 32.719 8.744 1.00 6.19 BTKA ATOM 1102 O VAL 534 41.620 32.3359.859 1.00 8.54 BTKA ATOM 1103 N VAL 535 39.998 32.994 8.440 1.00 7.49BTKA ATOM 1104 CA VAL 535 38.915 32.820 9.385 1.00 6.02 BTKA ATOM 1105CB VAL 535 37.918 34.028 9.338 1.00 5.47 BTKA ATOM 1106 CG1 VAL 53536.737 33.808 10.281 1.00 2.00 BTKA ATOM 1107 CG2 VAL 535 38.632 35.3089.725 1.00 4.76 BTKA ATOM 1108 C VAL 535 38.214 31.540 9.018 1.00 10.54BTKA ATOM 1109 O VAL 535 37.929 31.283 7.840 1.00 11.45 BTKA ATOM 1110 NLYS 536 37.985 30.714 10.029 1.00 13.48 BTKA ATOM 1111 CA LYS 536 37.31429.440 9.841 1.00 10.58 BTKA ATOM 1112 CB LYS 536 38.303 28.286 10.0301.00 7.32 BTKA ATOM 1113 CG LYS 536 39.494 28.342 9.113 1.00 2.94 BTKAATOM 1114 CD LYS 536 40.172 26.996 9.009 1.00 2.00 BTKA ATOM 1115 CE LYS536 41.398 27.103 8.113 1.00 8.60 BTKA ATOM 1116 NZ LYS 536 41.91125.779 7.679 1.00 8.95 BTKA ATOM 1117 C LYS 536 36.194 29.328 10.8631.00 11.55 BTKA ATOM 1118 O LYS 536 36.291 29.859 11.972 1.00 13.24 BTKAATOM 1119 N VAL 537 35.112 28.673 10.481 1.00 12.34 BTKA ATOM 1120 CAVAL 537 34.000 28.503 11.395 1.00 10.90 BTKA ATOM 1121 CB VAL 537 32.63528.484 10.649 1.00 11.82 BTKA ATOM 1122 CG1 VAL 537 32.547 29.644 9.6781.00 5.08 BTKA ATOM 1123 CG2 VAL 537 32.439 27.188 9.923 1.00 8.05 BTKAATOM 1124 C VAL 537 34.216 27.200 12.165 1.00 8.75 BTKA ATOM 1125 O VAL537 34.718 26.220 11.623 1.00 4.07 BTKA ATOM 1126 N SER 538 33.85027.191 13.436 1.00 8.53 BTKA ATOM 1127 CA SER 538 34.023 26.004 14.2441.00 9.45 BTKA ATOM 1128 CB SER 538 35.286 26.161 15.091 1.00 12.59 BTKAATOM 1129 OG SER 538 35.492 27.515 15.458 1.00 17.47 BTKA ATOM 1130 CSER 538 32.810 25.733 15.121 1.00 10.31 BTKA ATOM 1131 O SER 538 31.71626.215 14.844 1.00 6.08 BTKA ATOM 1132 N ASP 539 33.005 24.916 16.1501.00 15.14 BTKA ATOM 1133 CA ASP 539 31.962 24.551 17.096 1.00 16.76BTKA ATOM 1134 CB ASP 539 31.806 25.633 18.170 1.00 18.57 BTKA ATOM 1135CG ASP 539 32.995 25.693 19.113 1.00 21.43 BTKA ATOM 1136 OD1 ASP 53933.900 24.834 18.995 1.00 22.15 BTKA ATOM 1137 OD2 ASP 539 33.025 26.59719.975 1.00 22.92 BTKA ATOM 1138 C ASP 539 30.614 24.162 16.488 1.0017.48 BTKA ATOM 1139 O ASP 539 29.555 24.628 16.912 1.00 16.42 BTKA ATOM1140 N PHE 540 30.674 23.321 15.462 1.00 16.99 BTKA ATOM 1141 CA PHE 54029.475 22.810 14.814 1.00 16.89 BTKA ATOM 1142 CB PHE 540 29.500 23.03713.294 1.00 16.17 BTKA ATOM 1143 CG PHE 540 30.740 22.539 12.615 1.0013.71 BTKA ATOM 1144 CD1 PHE 540 31.805 23.397 12.371 1.00 16.51 BTKAATOM 1145 CD2 PHE 540 30.845 21.216 12.206 1.00 15.68 BTKA ATOM 1146 CE1PHE 540 32.961 22.945 11.729 1.00 16.66 BTKA ATOM 1147 CE2 PHE 54031.992 20.757 11.565 1.00 17.77 BTKA ATOM 1148 CZ PHE 540 33.053 21.62611.327 1.00 15.13 BTKA ATOM 1149 C PHE 540 29.408 21.326 15.143 1.0021.34 BTKA ATOM 1150 O PHE 540 28.789 20.547 14.428 1.00 23.74 BTKA ATOM1151 N GLY 541 30.058 20.948 16.240 1.00 26.85 BTKA ATOM 1152 CA GLY 54130.077 19.561 16.665 1.00 29.31 BTKA ATOM 1153 C GLY 541 28.691 19.00616.891 1.00 30.12 BTKA ATOM 1154 O GLY 541 28.263 18.096 16.195 1.0034.04 BTKA ATOM 1155 N LEU 542 27.977 19.593 17.843 1.00 33.66 BTKA ATOM1156 CA LEU 542 26.624 19.162 18.176 1.00 35.98 BTKA ATOM 1157 CB LEU542 26.172 19.825 19.477 1.00 34.47 BTKA ATOM 1158 CG LEU 542 24.94519.203 20.138 1.00 32.57 BTKA ATOM 1159 CD1 LEU 542 25.249 17.747 20.4831.00 31.46 BTKA ATOM 1160 CD2 LEU 542 24.570 19.988 21.384 1.00 34.75BTKA ATOM 1161 C LEU 542 25.611 19.465 17.073 1.00 37.74 BTKA ATOM 1162O LEU 542 24.484 18.974 17.115 1.00 41.14 BTKA ATOM 1163 N SER 54325.998 20.302 16.113 1.00 39.87 BTKA ATOM 1164 CA SER 543 25.119 20.67015.006 1.00 37.74 BTKA ATOM 1165 CB SER 543 25.884 21.503 13.991 1.0036.22 BTKA ATOM 1166 OG SER 543 26.286 22.741 14.549 1.00 39.50 BTKAATOM 1167 C SER 543 24.500 19.438 14.353 1.00 36.64 BTKA ATOM 1168 O SER543 25.122 18.378 14.295 1.00 39.71 BTKA ATOM 1169 N ARG 544 23.29119.588 13.823 1.00 35.36 BTKA ATOM 1170 CA ARG 544 22.586 18.449 13.2431.00 35.31 BTKA ATOM 1171 CB ARG 544 21.158 18.375 13.812 1.00 33.92BTKA ATOM 1172 CG ARG 544 21.042 18.446 15.337 1.00 31.74 BTKA ATOM 1173CD ARG 544 21.624 17.217 16.023 1.00 31.10 BTKA ATOM 1174 NE ARG 54421.323 17.206 17.455 1.00 28.02 BTKA ATOM 1175 CZ ARG 544 22.167 16.78918.394 1.00 27.42 BTKA ATOM 1176 NH1 ARG 544 23.374 16.347 18.063 1.0029.84 BTKA ATOM 1177 NH2 ARG 544 21.803 16.809 19.669 1.00 24.16 BTKAATOM 1178 C ARG 544 22.490 18.345 11.726 1.00 34.69 BTKA ATOM 1179 O ARG544 22.040 19.275 11.050 1.00 34.23 BTKA ATOM 1180 N TYR 545 22.90017.195 11.196 1.00 34.38 BTKA ATOM 1181 CA TYR 545 22.771 16.931 9.7721.00 33.59 BTKA ATOM 1182 CB TYR 545 23.675 15.769 9.337 1.00 30.93 BTKAATOM 1183 CG TYR 545 23.699 15.529 7.834 1.00 33.42 BTKA ATOM 1184 CD1TYR 545 22.515 15.298 7.120 1.00 31.23 BTKA ATOM 1185 CE1 TYR 545 22.53015.081 5.743 1.00 28.45 BTKA ATOM 1186 CD2 TYR 545 24.904 15.531 7.1251.00 28.39 BTKA ATOM 1187 CE2 TYR 545 24.927 15.314 5.743 1.00 28.97BTKA ATOM 1188 CZ TYR 545 23.735 15.089 5.059 1.00 28.78 BTKA ATOM 1189OH TYR 545 23.743 14.896 3.694 1.00 25.38 BTKA ATOM 1190 C TYR 54521.303 16.510 9.724 1.00 35.39 BTKA ATOM 1191 O TYR 545 20.970 15.3339.879 1.00 37.41 BTKA ATOM 1192 N VAL 546 20.428 17.498 9.602 1.00 37.55BTKA ATOM 1193 CA VAL 546 18.990 17.264 9.584 1.00 37.08 BTKA ATOM 1194CB VAL 546 18.229 18.544 10.010 1.00 37.41 BTKA ATOM 1195 CG1 VAL 54616.764 18.249 10.197 1.00 37.58 BTKA ATOM 1196 CG2 VAL 546 18.810 19.09011.301 1.00 35.82 BTKA ATOM 1197 C VAL 546 18.493 16.787 8.224 1.0037.83 BTKA ATOM 1198 O VAL 546 18.579 17.512 7.235 1.00 39.72 BTKA ATOM1199 N LEU 547 17.979 15.561 8.183 1.00 38.29 BTKA ATOM 1200 CA LEU 54717.464 14.983 6.942 1.00 38.05 BTKA ATOM 1201 CB LEU 547 17.040 13.5257.145 1.00 36.02 BTKA ATOM 1202 CG LEU 547 18.080 12.537 7.681 1.0037.29 BTKA ATOM 1203 CD1 LEU 547 18.006 12.487 9.203 1.00 36.45 BTKAATOM 1204 CD2 LEU 547 17.816 11.151 7.105 1.00 41.49 BTKA ATOM 1205 CLEU 547 16.279 15.781 6.421 1.00 37.96 BTKA ATOM 1206 O LEU 547 16.16316.022 5.226 1.00 39.78 BTKA ATOM 1207 N ASP 548 15.392 16.174 7.3281.00 39.49 BTKA ATOM 1208 CA ASP 548 14.213 16.947 6.961 1.00 38.62 BTKAATOM 1209 CB ASP 548 13.035 16.609 7.893 1.00 39.75 BTKA ATOM 1210 CGASP 548 13.449 16.453 9.347 1.00 35.16 BTKA ATOM 1211 OD1 ASP 548 13.38915.323 9.871 1.00 35.03 BTKA ATOM 1212 OD2 ASP 548 13.823 17.458 9.9741.00 34.37 BTKA ATOM 1213 C ASP 548 14.523 18.444 6.963 1.00 37.92 BTKAATOM 1214 O ASP 548 15.281 18.921 7.799 1.00 39.58 BTKA ATOM 1215 N ASP549 13.945 19.177 6.017 1.00 37.16 BTKA ATOM 1216 CA ASP 549 14.18220.621 5.904 1.00 37.60 BTKA ATOM 1217 CB ASP 549 13.639 21.165 4.5711.00 29.74 BTKA ATOM 1218 CG ASP 549 12.463 20.366 4.046 1.00 24.70 BTKAATOM 1219 OD1 ASP 549 11.311 20.721 4.369 1.00 21.17 BTKA ATOM 1220 OD2ASP 549 12.696 19.376 3.316 1.00 21.37 BTKA ATOM 1221 C ASP 549 13.71521.492 7.081 1.00 39.63 BTKA ATOM 1222 O ASP 549 14.267 22.570 7.3181.00 38.62 BTKA ATOM 1223 N GLU 550 12.692 21.042 7.800 1.00 42.46 BTKAATOM 1224 CA GLU 550 12.183 21.783 8.951 1.00 43.87 BTKA ATOM 1225 CBGLU 550 10.653 21.676 9.014 1.00 44.48 BTKA ATOM 1226 CG GLU 550 9.95022.690 9.924 1.00 42.81 BTKA ATOM 1227 CD GLU 550 10.269 22.514 11.4011.00 43.82 BTKA ATOM 1228 OE1 GLU 550 9.910 21.468 11.986 1.00 41.82BTKA ATOM 1229 OE2 GLU 550 10.884 23.428 11.984 1.00 43.35 BTKA ATOM1230 C GLU 550 12.811 21.061 10.132 1.00 44.39 BTKA ATOM 1231 O GLU 55012.798 19.833 10.161 1.00 45.16 BTKA ATOM 1232 N TYR 551 13.383 21.80311.080 1.00 44.30 BTKA ATOM 1233 CA TYR 551 14.026 21.184 12.239 1.0042.30 BTKA ATOM 1234 CB TYR 551 15.516 21.535 12.282 1.00 41.57 BTKAATOM 1235 CG TYR 551 16.221 21.112 13.559 1.00 42.35 BTKA ATOM 1236 CD1TYR 551 16.573 19.780 13.786 1.00 43.14 BTKA ATOM 1237 CE1 TYR 55117.241 19.402 14.952 1.00 40.79 BTKA ATOM 1238 CD2 TYR 551 16.550 22.05114.533 1.00 40.74 BTKA ATOM 1239 CE2 TYR 551 17.214 21.683 15.697 1.0038.38 BTKA ATOM 1240 CZ TYR 551 17.555 20.365 15.902 1.00 39.27 BTKAATOM 1241 OH TYR 551 18.206 20.021 17.061 1.00 41.15 BTKA ATOM 1242 CTYR 551 13.384 21.501 13.586 1.00 43.53 BTKA ATOM 1243 O TYR 551 12.96522.633 13.849 1.00 41.79 BTKA ATOM 1244 N THR 552 13.329 20.475 14.4311.00 44.17 BTKA ATOM 1245 CA THR 552 12.777 20.559 15.777 1.00 42.48BTKA ATOM 1246 CB THR 552 11.555 19.626 15.927 1.00 40.83 BTKA ATOM 1247OG1 THR 552 11.850 18.351 15.345 1.00 39.32 BTKA ATOM 1248 CG2 THR 55210.343 20.216 15.226 1.00 40.05 BTKA ATOM 1249 C THR 552 13.900 20.11816.716 1.00 43.93 BTKA ATOM 1250 O THR 552 14.784 19.366 16.300 1.0045.33 BTKA ATOM 1251 N SER 553 13.884 20.584 17.963 1.00 42.56 BTKA ATOM1252 CA SER 553 14.940 20.231 18.909 1.00 41.52 BTKA ATOM 1253 CB SER553 15.942 21.388 18.998 1.00 43.12 BTKA ATOM 1254 OG SER 553 17.20720.961 19.479 1.00 42.78 BTKA ATOM 1255 C SER 553 14.384 19.902 20.2991.00 41.75 BTKA ATOM 1256 O SER 553 13.185 19.638 20.446 1.00 41.54 BTKAATOM 1257 N SER 554 15.269 19.863 21.296 1.00 40.52 BTKA ATOM 1258 CASER 554 14.883 19.589 22.678 1.00 41.03 BTKA ATOM 1259 CB SER 554 15.89518.655 23.349 1.00 41.04 BTKA ATOM 1260 OG SER 554 15.346 18.053 24.5151.00 41.68 BTKA ATOM 1261 C SER 554 14.833 20.932 23.406 1.00 41.29 BTKAATOM 1262 O SER 554 13.833 21.273 24.033 1.00 40.26 BTKA ATOM 1263 N VAL555 15.928 21.681 23.287 1.00 42.31 BTKA ATOM 1264 CA VAL 555 16.10423.024 23.858 1.00 44.31 BTKA ATOM 1265 CB VAL 555 15.284 24.090 23.0821.00 46.09 BTKA ATOM 1266 CG1 VAL 555 15.359 23.808 21.607 1.00 45.26BTKA ATOM 1267 CG2 VAL 555 13.840 24.159 23.568 1.00 46.08 BTKA ATOM1268 C VAL 555 15.979 23.284 25.365 1.00 43.78 BTKA ATOM 1269 O VAL 55515.291 22.570 26.101 1.00 43.91 BTKA ATOM 1270 N GLY 556 16.690 24.32425.797 1.00 42.58 BTKA ATOM 1271 CA GLY 556 16.712 24.732 27.187 1.0042.48 BTKA ATOM 1272 C GLY 556 18.047 25.357 27.556 1.00 41.57 BTKA ATOM1273 O GLY 556 18.784 25.812 26.675 1.00 41.16 BTKA ATOM 1274 N SER 55718.352 25.378 28.853 1.00 40.73 BTKA ATOM 1275 CA SER 557 19.603 25.93429.383 1.00 38.88 BTKA ATOM 1276 CB SER 557 20.812 25.220 28.764 1.0040.14 BTKA ATOM 1277 OG SER 557 20.724 23.812 28.944 1.00 36.05 BTKAATOM 1278 C SER 557 19.721 27.453 29.214 1.00 38.15 BTKA ATOM 1279 O SER557 19.729 28.193 30.197 1.00 37.76 BTKA ATOM 1280 N LYS 558 19.82627.905 27.971 1.00 36.40 BTKA ATOM 1281 CA LYS 558 19.926 29.323 27.6481.00 33.00 BTKA ATOM 1282 CB LYS 558 21.170 29.948 28.284 1.00 32.93BTKA ATOM 1283 CG LYS 558 21.234 31.480 28.249 1.00 28.95 BTKA ATOM 1284CD LYS 558 20.109 32.151 29.034 1.00 25.19 BTKA ATOM 1285 CE LYS 55818.864 32.378 28.182 1.00 24.86 BTKA ATOM 1286 NZ LYS 558 19.140 33.23826.987 1.00 27.50 BTKA ATOM 1287 C LYS 558 19.987 29.415 26.127 1.0032.13 BTKA ATOM 1288 O LYS 558 20.184 28.403 25.448 1.00 31.90 BTKA ATOM1289 N PHE 559 19.843 30.618 25.591 1.00 31.72 BTKA ATOM 1290 CA PHE 55919.848 30.797 24.147 1.00 30.24 BTKA ATOM 1291 CB PHE 559 18.410 31.03323.671 1.00 33.13 BTKA ATOM 1292 CG PHE 559 18.028 30.265 22.440 1.0036.97 BTKA ATOM 1293 CD1 PHE 559 18.976 29.572 21.698 1.00 37.84 BTKAATOM 1294 CD2 PHE 559 16.697 30.207 22.042 1.00 40.25 BTKA ATOM 1295 CE1PHE 559 18.605 28.832 20.582 1.00 36.42 BTKA ATOM 1296 CE2 PHE 55916.318 29.468 20.932 1.00 39.23 BTKA ATOM 1297 CZ PHE 559 17.275 28.77920.203 1.00 39.57 BTKA ATOM 1298 C PHE 559 20.672 32.005 23.738 1.0028.68 BTKA ATOM 1299 O PHE 559 20.647 33.036 24.418 1.00 32.43 BTKA ATOM1300 N PRO 560 21.505 31.859 22.696 1.00 25.69 BTKA ATOM 1301 CD PRO 56021.989 30.606 22.090 1.00 23.07 BTKA ATOM 1302 CA PRO 560 22.303 33.00322.244 1.00 25.30 BTKA ATOM 1303 CB PRO 560 23.371 32.343 21.371 1.0024.23 BTKA ATOM 1304 CG PRO 560 22.695 31.103 20.873 1.00 23.44 BTKAATOM 1305 C PRO 560 21.322 33.869 21.439 1.00 22.00 BTKA ATOM 1306 O PRO560 21.428 34.002 20.220 1.00 20.54 BTKA ATOM 1307 N VAL 561 20.37034.447 22.170 1.00 18.60 BTKA ATOM 1308 CA VAL 561 19.271 35.271 21.6531.00 15.90 BTKA ATOM 1309 CB VAL 561 18.475 35.908 22.840 1.00 13.27BTKA ATOM 1310 CG1 VAL 561 17.202 36.587 22.348 1.00 12.23 BTKA ATOM1311 CG2 VAL 561 18.126 34.848 23.858 1.00 10.66 BTKA ATOM 1312 C VAL561 19.631 36.360 20.645 1.00 12.76 BTKA ATOM 1313 O VAL 561 18.90036.595 19.686 1.00 14.28 BTKA ATOM 1314 N ARG 562 20.778 36.990 20.8491.00 11.30 BTKA ATOM 1315 CA ARG 562 21.238 38.078 19.996 1.00 7.17 BTKAATOM 1316 CB ARG 562 22.435 38.756 20.647 1.00 6.00 BTKA ATOM 1317 CGARG 562 22.184 39.160 22.086 1.00 7.62 BTKA ATOM 1318 CD ARG 562 23.39639.859 22.678 1.00 8.88 BTKA ATOM 1319 NE ARG 562 23.231 40.134 24.1001.00 12.40 BTKA ATOM 1320 CZ ARG 562 22.311 40.944 24.614 1.00 6.84 BTKAATOM 1321 NH1 ARG 562 22.250 41.118 25.921 1.00 15.72 BTKA ATOM 1322 NH2ARG 562 21.458 41.583 23.835 1.00 7.47 BTKA ATOM 1323 C ARG 562 21.58737.696 18.569 1.00 8.37 BTKA ATOM 1324 O ARG 562 21.885 38.566 17.7631.00 7.58 BTKA ATOM 1325 N TRP 563 21.584 36.402 18.264 1.00 9.41 BTKAATOM 1326 CA TRP 563 21.909 35.920 16.918 1.00 7.23 BTKA ATOM 1327 CBTRP 563 23.207 35.107 16.932 1.00 7.42 BTKA ATOM 1328 CG TRP 563 24.42235.878 17.243 1.00 6.68 BTKA ATOM 1329 CD2 TRP 563 24.892 36.249 18.5411.00 8.73 BTKA ATOM 1330 CE2 TRP 563 26.070 36.995 18.358 1.00 8.54 BTKAATOM 1331 CE3 TRP 563 24.432 36.021 19.845 1.00 7.52 BTKA ATOM 1332 CD1TRP 563 25.306 36.388 16.351 1.00 10.62 BTKA ATOM 1333 NE1 TRP 56326.297 37.071 17.010 1.00 11.83 BTKA ATOM 1334 CZ2 TRP 563 26.796 37.52519.423 1.00 10.18 BTKA ATOM 1335 CZ3 TRP 563 25.153 36.549 20.907 1.0014.27 BTKA ATOM 1336 CH2 TRP 563 26.325 37.292 20.686 1.00 11.16 BTKAATOM 1337 C TRP 563 20.806 35.000 16.434 1.00 3.39 BTKA ATOM 1338 O TRP563 20.986 34.269 15.470 1.00 6.67 BTKA ATOM 1339 N SER 564 19.65435.063 17.080 1.00 4.53 BTKA ATOM 1340 CA SER 564 18.568 34.179 16.7241.00 7.96 BTKA ATOM 1341 CB SER 564 18.134 33.404 17.971 1.00 9.14 BTKAATOM 1342 OG SER 564 19.237 32.702 18.549 1.00 15.71 BTKA ATOM 1343 CSER 564 17.364 34.853 16.088 1.00 9.34 BTKA ATOM 1344 O SER 564 16.95235.938 16.501 1.00 8.42 BTKA ATOM 1345 N PRO 565 16.839 34.255 15.0041.00 9.83 BTKA ATOM 1346 CD PRO 565 17.389 33.137 14.219 1.00 10.36 BTKAATOM 1347 CA PRO 565 15.671 34.821 14.336 1.00 11.63 BTKA ATOM 1348 CBPRO 565 15.605 34.018 13.033 1.00 7.64 BTKA ATOM 1349 CG PRO 565 16.20332.723 13.395 1.00 3.54 BTKA ATOM 1350 C PRO 565 14.451 34.575 15.2251.00 11.02 BTKA ATOM 1351 O PRO 565 14.444 33.649 16.040 1.00 9.72 BTKAATOM 1352 N PRO 566 13.397 35.382 15.064 1.00 14.93 BTKA ATOM 1353 CDPRO 566 13.208 36.466 14.085 1.00 16.14 BTKA ATOM 1354 CA PRO 566 12.19435.207 15.881 1.00 14.83 BTKA ATOM 1355 CB PRO 566 11.217 36.217 15.2721.00 14.50 BTKA ATOM 1356 CG PRO 566 11.729 36.426 13.876 1.00 18.85BTKA ATOM 1357 C PRO 566 11.617 33.781 15.963 1.00 12.73 BTKA ATOM 1358O PRO 566 11.195 33.361 17.038 1.00 13.91 BTKA ATOM 1359 N GLU 56711.636 33.012 14.874 1.00 13.43 BTKA ATOM 1360 CA GLU 567 11.075 31.65214.932 1.00 13.41 BTKA ATOM 1361 CB GLU 567 10.789 31.072 13.541 1.0015.94 BTKA ATOM 1362 CG GLU 567 12.010 30.662 12.730 1.00 17.33 BTKAATOM 1363 CD GLU 567 12.733 31.825 12.072 1.00 12.50 BTKA ATOM 1364 OE1GLU 567 12.300 32.993 12.211 1.00 10.98 BTKA ATOM 1365 OE2 GLU 56713.749 31.550 11.404 1.00 9.50 BTKA ATOM 1366 C GLU 567 11.908 30.68515.769 1.00 11.95 BTKA ATOM 1367 O GLU 567 11.460 29.581 16.106 1.0012.58 BTKA ATOM 1368 N VAL 568 13.134 31.083 16.078 1.00 10.44 BTKA ATOM1369 CA VAL 568 13.994 30.274 16.926 1.00 9.53 BTKA ATOM 1370 CB VAL 56815.473 30.421 16.541 1.00 4.21 BTKA ATOM 1371 CG1 VAL 568 16.331 30.51817.751 1.00 6.04 BTKA ATOM 1372 CG2 VAL 568 15.902 29.228 15.729 1.005.60 BTKA ATOM 1373 C VAL 568 13.722 30.798 18.331 1.00 10.51 BTKA ATOM1374 O VAL 568 13.608 30.029 19.285 1.00 9.31 BTKA ATOM 1375 N LEU 56913.521 32.110 18.415 1.00 10.75 BTKA ATOM 1376 CA LEU 569 13.218 32.80319.663 1.00 14.44 BTKA ATOM 1377 CB LEU 569 13.137 34.308 19.397 1.0012.26 BTKA ATOM 1378 CG LEU 569 14.207 35.247 19.958 1.00 11.89 BTKAATOM 1379 CD1 LEU 569 15.591 34.631 19.852 1.00 11.36 BTKA ATOM 1380 CD2LEU 569 14.135 36.583 19.221 1.00 12.38 BTKA ATOM 1381 C LEU 569 11.88532.333 20.244 1.00 17.10 BTKA ATOM 1382 O LEU 569 11.709 32.288 21.4621.00 20.31 BTKA ATOM 1383 N MET 570 10.959 31.964 19.363 1.00 17.50 BTKAATOM 1384 CA MET 570 9.629 31.528 19.769 1.00 16.12 BTKA ATOM 1385 CBMET 570 8.588 32.073 18.797 1.00 16.10 BTKA ATOM 1386 CG MET 570 8.49033.593 18.830 1.00 17.26 BTKA ATOM 1387 SD MET 570 7.274 34.254 17.6861.00 27.62 BTKA ATOM 1388 CE MET 570 8.296 34.747 16.354 1.00 23.00 BTKAATOM 1389 C MET 570 9.404 30.043 20.028 1.00 12.94 BTKA ATOM 1390 O MET570 8.637 29.689 20.923 1.00 15.56 BTKA ATOM 1391 N TYR 571 10.02729.172 19.242 1.00 12.61 BTKA ATOM 1392 CA TYR 571 9.875 27.726 19.4481.00 14.91 BTKA ATOM 1393 CB TYR 571 8.489 27.216 19.010 1.00 17.43 BTKAATOM 1394 CG TYR 571 8.126 27.460 17.560 1.00 16.93 BTKA ATOM 1395 CD1TYR 571 7.914 26.397 16.691 1.00 17.22 BTKA ATOM 1396 CE1 TYR 571 7.56526.612 15.361 1.00 18.55 BTKA ATOM 1397 CD2 TYR 571 7.983 28.754 17.0671.00 15.52 BTKA ATOM 1398 CE2 TYR 571 7.640 28.987 15.742 1.00 21.13BTKA ATOM 1399 CZ TYR 571 7.428 27.912 14.891 1.00 22.58 BTKA ATOM 1400OH TYR 571 7.070 28.139 13.582 1.00 18.95 BTKA ATOM 1401 C TYR 57110.983 26.881 18.832 1.00 15.24 BTKA ATOM 1402 O TYR 571 10.734 25.81018.286 1.00 17.04 BTKA ATOM 1403 N SER 572 12.204 27.398 18.894 1.0019.07 BTKA ATOM 1404 CA SER 572 13.383 26.696 18.399 1.00 19.19 BTKAATOM 1405 CB SER 572 13.759 25.611 19.399 1.00 16.09 BTKA ATOM 1406 OGSER 572 13.662 26.109 20.727 1.00 13.53 BTKA ATOM 1407 C SER 572 13.27026.088 17.001 1.00 19.87 BTKA ATOM 1408 O SER 572 13.729 24.960 16.7611.00 16.73 BTKA ATOM 1409 N LYS 573 12.679 26.838 16.076 1.00 22.09 BTKAATOM 1410 CA LYS 573 12.535 26.364 14.707 1.00 23.82 BTKA ATOM 1411 CBLYS 573 11.304 27.005 14.060 1.00 24.62 BTKA ATOM 1412 CG LYS 573 10.87026.369 12.755 1.00 24.09 BTKA ATOM 1413 CD LYS 573 9.561 26.969 12.2891.00 27.34 BTKA ATOM 1414 CE LYS 573 8.914 26.145 11.197 1.00 27.52 BTKAATOM 1415 NZ LYS 573 7.495 26.549 11.009 1.00 27.13 BTKA ATOM 1416 C LYS573 13.810 26.672 13.898 1.00 24.62 BTKA ATOM 1417 O LYS 573 13.87527.661 13.159 1.00 24.59 BTKA ATOM 1418 N PHE 574 14.842 25.857 14.0931.00 21.87 BTKA ATOM 1419 CA PHE 574 16.096 26.042 13.379 1.00 17.67BTKA ATOM 1420 CB PHE 574 17.238 25.268 14.055 1.00 18.29 BTKA ATOM 1421CG PHE 574 17.489 25.649 15.493 1.00 17.48 BTKA ATOM 1422 CD1 PHE 57417.065 24.823 16.527 1.00 20.56 BTKA ATOM 1423 CD2 PHE 574 18.200 26.80315.813 1.00 19.16 BTKA ATOM 1424 CE1 PHE 574 17.345 25.132 17.860 1.0020.84 BTKA ATOM 1425 CE2 PHE 574 18.485 27.122 17.144 1.00 19.40 BTKAATOM 1426 CZ PHE 574 18.054 26.280 18.168 1.00 17.92 BTKA ATOM 1427 CPHE 574 15.941 25.514 11.960 1.00 13.16 BTKA ATOM 1428 O PHE 574 15.18124.577 11.716 1.00 13.27 BTKA ATOM 1429 N SER 575 16.668 26.112 11.0281.00 13.22 BTKA ATOM 1430 CA SER 575 16.658 25.682 9.634 1.00 12.31 BTKAATOM 1431 CB SER 575 15.405 26.185 8.900 1.00 9.44 BTKA ATOM 1432 OG SER575 15.558 27.510 8.406 1.00 5.32 BTKA ATOM 1433 C SER 575 17.915 26.2759.017 1.00 13.34 BTKA ATOM 1434 O SER 575 18.848 26.636 9.738 1.00 16.79BTKA ATOM 1435 N SER 576 17.953 26.378 7.696 1.00 12.36 BTKA ATOM 1436CA SER 576 19.102 26.959 7.033 1.00 11.50 BTKA ATOM 1437 CB SER 57619.033 26.673 5.534 1.00 17.69 BTKA ATOM 1438 OG SER 576 17.829 27.1864.970 1.00 25.45 BTKA ATOM 1439 C SER 576 19.048 28.465 7.250 1.00 9.00BTKA ATOM 1440 O SER 576 20.068 29.129 7.436 1.00 11.10 BTKA ATOM 1441 NLYS 577 17.833 28.995 7.247 1.00 9.50 BTKA ATOM 1442 CA LYS 577 17.60430.422 7.402 1.00 9.17 BTKA ATOM 1443 CB LYS 577 16.190 30.765 6.9251.00 12.09 BTKA ATOM 1444 CG LYS 577 15.892 30.249 5.508 1.00 8.29 BTKAATOM 1445 CD LYS 577 16.752 30.956 4.471 1.00 19.55 BTKA ATOM 1446 CELYS 577 16.830 30.179 3.159 1.00 15.68 BTKA ATOM 1447 NZ LYS 577 15.49829.738 2.670 1.00 20.19 BTKA ATOM 1448 C LYS 577 17.878 30.940 8.8121.00 8.67 BTKA ATOM 1449 O LYS 577 17.909 32.154 9.032 1.00 9.38 BTKAATOM 1450 N SER 578 18.054 30.026 9.766 1.00 10.63 BTKA ATOM 1451 CA SER578 18.378 30.401 11.141 1.00 7.64 BTKA ATOM 1452 CB SER 578 18.10729.250 12.110 1.00 6.86 BTKA ATOM 1453 OG SER 578 16.743 28.879 12.1061.00 18.48 BTKA ATOM 1454 C SER 578 19.862 30.743 11.139 1.00 3.05 BTKAATOM 1455 O SER 578 20.281 31.699 11.785 1.00 3.62 BTKA ATOM 1456 N ASP579 20.653 29.951 10.415 1.00 4.90 BTKA ATOM 1457 CA ASP 579 22.09230.205 10.277 1.00 7.88 BTKA ATOM 1458 CB ASP 579 22.773 29.075 9.5221.00 7.80 BTKA ATOM 1459 CG ASP 579 22.916 27.838 10.341 1.00 13.43 BTKAATOM 1460 OD1 ASP 579 22.190 27.698 11.347 1.00 16.68 BTKA ATOM 1461 OD2ASP 579 23.765 27.003 9.970 1.00 17.47 BTKA ATOM 1462 C ASP 579 22.33031.496 9.500 1.00 5.97 BTKA ATOM 1463 O ASP 579 23.275 32.228 9.776 1.006.23 BTKA ATOM 1464 N ILE 580 21.515 31.715 8.472 1.00 6.76 BTKA ATOM1465 CA ILE 580 21.607 32.921 7.652 1.00 8.95 BTKA ATOM 1466 CB ILE 58020.548 32.921 6.497 1.00 7.78 BTKA ATOM 1467 CG2 ILE 580 19.670 34.1716.529 1.00 9.49 BTKA ATOM 1468 CG1 ILE 580 21.252 32.861 5.136 1.00 6.38BTKA ATOM 1469 CD ILE 580 21.449 31.477 4.617 1.00 12.06 BTKA ATOM 1470C ILE 580 21.452 34.150 8.545 1.00 9.29 BTKA ATOM 1471 O ILE 580 22.24735.087 8.449 1.00 14.35 BTKA ATOM 1472 N TRP 581 20.457 34.127 9.4301.00 8.74 BTKA ATOM 1473 CA TRP 581 20.218 35.235 10.339 1.00 4.45 BTKAATOM 1474 CB TRP 581 18.997 34.961 11.219 1.00 5.26 BTKA ATOM 1475 CGTRP 581 18.656 36.080 12.187 1.00 5.57 BTKA ATOM 1476 CD2 TRP 581 17.47836.894 12.182 1.00 7.10 BTKA ATOM 1477 CE2 TRP 581 17.577 37.782 13.2761.00 8.85 BTKA ATOM 1478 CE3 TRP 581 16.343 36.957 11.366 1.00 5.60 BTKAATOM 1479 CD1 TRP 581 19.400 36.500 13.253 1.00 7.88 BTKA ATOM 1480 NE1TRP 581 18.760 37.520 13.908 1.00 8.39 BTKA ATOM 1481 CZ2 TRP 581 16.59038.716 13.571 1.00 7.26 BTKA ATOM 1482 CZ3 TRP 581 15.364 37.885 11.6611.00 2.00 BTKA ATOM 1483 CH2 TRP 581 15.495 38.752 12.753 1.00 6.05 BTKAATOM 1484 C TRP 581 21.442 35.446 11.195 1.00 4.23 BTKA ATOM 1485 O TRP581 21.953 36.557 11.290 1.00 7.98 BTKA ATOM 1486 N ALA 582 21.90734.371 11.821 1.00 9.71 BTKA ATOM 1487 CA ALA 582 23.083 34.408 12.6901.00 7.74 BTKA ATOM 1488 CB ALA 582 23.304 33.041 13.314 1.00 5.41 BTKAATOM 1489 C ALA 582 24.342 34.878 11.957 1.00 9.07 BTKA ATOM 1490 O ALA582 25.189 35.551 12.543 1.00 8.09 BTKA ATOM 1491 N PHE 583 24.46334.522 10.675 1.00 12.09 BTKA ATOM 1492 CA PHE 583 25.609 34.920 9.8411.00 7.60 BTKA ATOM 1493 CB PHE 583 25.557 34.201 8.490 1.00 9.22 BTKAATOM 1494 CG PHE 583 26.526 34.740 7.465 1.00 4.47 BTKA ATOM 1495 CD1PHE 583 27.877 34.430 7.536 1.00 4.68 BTKA ATOM 1496 CD2 PHE 583 26.07935.549 6.421 1.00 6.35 BTKA ATOM 1497 CE1 PHE 583 28.769 34.915 6.5851.00 5.23 BTKA ATOM 1498 CE2 PHE 583 26.969 36.039 5.460 1.00 2.15 BTKAATOM 1499 CZ PHE 583 28.313 35.719 5.545 1.00 5.61 BTKA ATOM 1500 C PHE583 25.536 36.416 9.607 1.00 10.14 BTKA ATOM 1501 O PHE 583 26.55637.111 9.615 1.00 11.69 BTKA ATOM 1502 N GLY 584 24.320 36.895 9.3601.00 10.66 BTKA ATOM 1503 CA GLY 584 24.102 38.309 9.128 1.00 9.30 BTKAATOM 1504 C GLY 584 24.514 39.107 10.339 1.00 7.76 BTKA ATOM 1505 O GLY584 25.051 40.209 10.212 1.00 10.68 BTKA ATOM 1506 N VAL 585 24.25938.559 11.525 1.00 7.75 BTKA ATOM 1507 CA VAL 585 24.644 39.246 12.7501.00 6.19 BTKA ATOM 1508 CB VAL 585 23.995 38.628 14.015 1.00 5.76 BTKAATOM 1509 CG1 VAL 585 24.471 39.358 15.246 1.00 8.91 BTKA ATOM 1510 CG2VAL 585 22.478 38.711 13.945 1.00 4.10 BTKA ATOM 1511 C VAL 585 26.16939.169 12.847 1.00 7.35 BTKA ATOM 1512 O VAL 585 26.818 40.145 13.2011.00 10.25 BTKA ATOM 1513 N LEU 586 26.746 38.026 12.487 1.00 4.16 BTKAATOM 1514 CA LEU 586 28.200 37.873 12.527 1.00 7.72 BTKA ATOM 1515 CBLEU 586 28.632 36.492 12.005 1.00 5.58 BTKA ATOM 1516 CG LEU 586 30.12736.293 11.693 1.00 6.32 BTKA ATOM 1517 CD1 LEU 586 31.005 36.643 12.8851.00 2.00 BTKA ATOM 1518 CD2 LEU 586 30.385 34.880 11.254 1.00 6.90 BTKAATOM 1519 C LEU 586 28.857 38.965 11.695 1.00 6.55 BTKA ATOM 1520 O LEU586 29.902 39.502 12.071 1.00 6.94 BTKA ATOM 1521 N MET 587 28.24239.278 10.557 1.00 9.63 BTKA ATOM 1522 CA MET 587 28.745 40.310 9.6601.00 5.25 BTKA ATOM 1523 CB MET 587 27.850 40.442 8.437 1.00 5.01 BTKAATOM 1524 CG MET 587 27.974 39.317 7.443 1.00 4.97 BTKA ATOM 1525 SD MET587 27.187 39.797 5.910 1.00 9.68 BTKA ATOM 1526 CE MET 587 28.48040.808 5.189 1.00 3.35 BTKA ATOM 1527 C MET 587 28.755 41.626 10.4001.00 6.90 BTKA ATOM 1528 O MET 587 29.716 42.387 10.318 1.00 4.22 BTKAATOM 1529 N TRP 588 27.680 41.878 11.143 1.00 8.72 BTKA ATOM 1530 CA TRP588 27.551 43.096 11.925 1.00 9.02 BTKA ATOM 1531 CB TRP 588 26.17643.155 12.595 1.00 7.30 BTKA ATOM 1532 CG TRP 588 25.977 44.397 13.3891.00 3.41 BTKA ATOM 1533 CD2 TRP 588 26.321 44.593 14.759 1.00 5.76 BTKAATOM 1534 CE2 TRP 588 26.021 45.939 15.078 1.00 3.37 BTKA ATOM 1535 CE3TRP 588 26.863 43.765 15.756 1.00 7.65 BTKA ATOM 1536 CD1 TRP 588 25.49245.591 12.941 1.00 3.84 BTKA ATOM 1537 NE1 TRP 588 25.518 46.525 13.9461.00 2.00 BTKA ATOM 1538 CZ2 TRP 588 26.244 46.470 16.348 1.00 3.23 BTKAATOM 1539 CZ3 TRP 588 27.085 44.298 17.012 1.00 2.00 BTKA ATOM 1540 CH2TRP 588 26.777 45.635 17.298 1.00 5.01 BTKA ATOM 1541 C TRP 588 28.65543.122 12.980 1.00 11.28 BTKA ATOM 1542 O TRP 588 29.133 44.186 13.3621.00 11.93 BTKA ATOM 1543 N GLU 589 29.058 41.942 13.439 1.00 11.46 BTKAATOM 1544 CA GLU 589 30.116 41.828 14.430 1.00 10.29 BTKA ATOM 1545 CBGLU 589 30.177 40.409 15.010 1.00 10.54 BTKA ATOM 1546 CG GLU 589 28.99640.024 15.873 1.00 6.40 BTKA ATOM 1547 CD GLU 589 29.184 38.674 16.5221.00 5.99 BTKA ATOM 1548 OE1 GLU 589 29.688 38.628 17.661 1.00 10.51BTKA ATOM 1549 OE2 GLU 589 28.835 37.654 15.890 1.00 5.23 BTKA ATOM 1550C GLU 589 31.442 42.164 13.768 1.00 11.38 BTKA ATOM 1551 O GLU 58932.287 42.844 14.349 1.00 9.66 BTKA ATOM 1552 N ILE 590 31.632 41.66612.554 1.00 9.79 BTKA ATOM 1553 CA ILE 590 32.860 41.931 11.825 1.0014.53 BTKA ATOM 1554 CB ILE 590 32.921 41.136 10.476 1.00 13.48 BTKAATOM 1555 CG2 ILE 590 34.080 41.612 9.628 1.00 13.14 BTKA ATOM 1556 CG1ILE 590 33.080 39.637 10.746 1.00 14.32 BTKA ATOM 1557 CD ILE 590 33.13638.788 9.489 1.00 2.34 BTKA ATOM 1558 C ILE 590 32.982 43.426 11.5521.00 14.06 BTKA ATOM 1559 O ILE 590 33.983 44.052 11.908 1.00 15.05 BTKAATOM 1560 N TYR 591 31.931 44.007 10.982 1.00 14.63 BTKA ATOM 1561 CATYR 591 31.939 45.423 10.642 1.00 10.81 BTKA ATOM 1562 CB TYR 591 30.87845.721 9.592 1.00 11.09 BTKA ATOM 1563 CG TYR 591 31.410 45.434 8.2131.00 11.87 BTKA ATOM 1564 CD1 TYR 591 31.381 44.144 7.684 1.00 15.61BTKA ATOM 1565 CE1 TYR 591 31.955 43.863 6.446 1.00 11.16 BTKA ATOM 1566CD2 TYR 591 32.022 46.437 7.466 1.00 10.34 BTKA ATOM 1567 CE2 TYR 59132.598 46.170 6.235 1.00 10.30 BTKA ATOM 1568 CZ TYR 591 32.564 44.8835.731 1.00 11.77 BTKA ATOM 1569 OH TYR 591 33.154 44.620 4.519 1.0018.27 BTKA ATOM 1570 C TYR 591 31.964 46.440 11.780 1.00 8.81 BTKA ATOM1571 O TYR 591 32.575 47.505 11.645 1.00 9.70 BTKA ATOM 1572 N SER 59231.330 46.126 12.904 1.00 9.16 BTKA ATOM 1573 CA SER 592 31.377 47.03314.051 1.00 10.14 BTKA ATOM 1574 CB SER 592 30.157 46.849 14.961 1.008.60 BTKA ATOM 1575 OG SER 592 30.143 45.577 15.572 1.00 10.12 BTKA ATOM1576 C SER 592 32.684 46.776 14.823 1.00 11.91 BTKA ATOM 1577 O SER 59232.904 47.341 15.894 1.00 12.09 BTKA ATOM 1578 N LEU 593 33.554 45.94414.247 1.00 8.44 BTKA ATOM 1579 CA LEU 593 34.837 45.583 14.836 1.0011.62 BTKA ATOM 1580 CB LEU 593 35.794 46.784 14.878 1.00 11.72 BTKAATOM 1581 CG LEU 593 36.273 47.296 13.507 1.00 13.96 BTKA ATOM 1582 CD1LEU 593 37.035 48.602 13.641 1.00 11.23 BTKA ATOM 1583 CD2 LEU 59337.130 46.246 12.820 1.00 13.30 BTKA ATOM 1584 C LEU 593 34.757 44.90116.197 1.00 13.49 BTKA ATOM 1585 O LEU 593 35.398 45.324 17.158 1.0015.34 BTKA ATOM 1586 N GLY 594 33.984 43.820 16.249 1.00 13.34 BTKA ATOM1587 CA GLY 594 33.842 43.027 17.460 1.00 13.43 BTKA ATOM 1588 C GLY 59432.899 43.478 18.554 1.00 12.35 BTKA ATOM 1589 O GLY 594 33.053 43.07419.702 1.00 16.26 BTKA ATOM 1590 N LYS 595 31.907 44.292 18.225 1.0015.44 BTKA ATOM 1591 CA LYS 595 30.982 44.751 19.252 1.00 14.58 BTKAATOM 1592 CB LYS 595 30.422 46.133 18.902 1.00 16.29 BTKA ATOM 1593 CGLYS 595 31.498 47.153 18.538 1.00 17.65 BTKA ATOM 1594 CD LYS 595 32.69947.035 19.468 1.00 20.70 BTKA ATOM 1595 CE LYS 595 33.937 47.733 18.9111.00 19.00 BTKA ATOM 1596 NZ LYS 595 35.142 47.357 19.707 1.00 21.27BTKA ATOM 1597 C LYS 595 29.862 43.746 19.481 1.00 11.31 BTKA ATOM 1598O LYS 595 29.561 42.941 18.600 1.00 11.64 BTKA ATOM 1599 N MET 59629.311 43.743 20.695 1.00 13.47 BTKA ATOM 1600 CA MET 596 28.212 42.84221.044 1.00 13.02 BTKA ATOM 1601 CB MET 596 28.097 42.639 22.569 1.0017.06 BTKA ATOM 1602 CG MET 596 26.706 42.143 23.017 1.00 18.96 BTKAATOM 1603 SD MET 596 26.594 41.087 24.493 1.00 25.10 BTKA ATOM 1604 CEMET 596 26.050 42.271 25.755 1.00 16.77 BTKA ATOM 1605 C MET 596 26.90843.396 20.502 1.00 8.51 BTKA ATOM 1606 O MET 596 26.670 44.611 20.5471.00 8.39 BTKA ATOM 1607 N PRO 597 26.042 42.511 19.986 1.00 6.79 BTKAATOM 1608 CD PRO 597 26.280 41.091 19.679 1.00 2.92 BTKA ATOM 1609 CAPRO 597 24.760 42.938 19.441 1.00 7.77 BTKA ATOM 1610 CB PRO 597 24.28341.694 18.679 1.00 2.29 BTKA ATOM 1611 CG PRO 597 25.559 40.945 18.3871.00 2.89 BTKA ATOM 1612 C PRO 597 23.791 43.330 20.541 1.00 5.87 BTKAATOM 1613 O PRO 597 23.608 42.598 21.504 1.00 8.10 BTKA ATOM 1614 N TYR598 23.198 44.509 20.421 1.00 11.67 BTKA ATOM 1615 CA TYR 598 22.22544.984 21.403 1.00 11.39 BTKA ATOM 1616 CB TYR 598 20.986 44.087 21.3741.00 11.13 BTKA ATOM 1617 CG TYR 598 20.502 43.671 20.010 1.00 10.46BTKA ATOM 1618 CD1 TYR 598 20.737 42.384 19.538 1.00 8.57 BTKA ATOM 1619CE1 TYR 598 20.241 41.968 18.321 1.00 9.01 BTKA ATOM 1620 CD2 TYR 59819.757 44.541 19.219 1.00 11.82 BTKA ATOM 1621 CE2 TYR 598 19.255 44.13917.998 1.00 11.15 BTKA ATOM 1622 CZ TYR 598 19.499 42.850 17.553 1.0010.70 BTKA ATOM 1623 OH TYR 598 19.007 42.443 16.335 1.00 12.06 BTKAATOM 1624 C TYR 598 22.731 45.018 22.851 1.00 13.88 BTKA ATOM 1625 O TYR598 21.993 44.656 23.762 1.00 14.96 BTKA ATOM 1626 N GLU 599 23.94045.518 23.078 1.00 17.51 BTKA ATOM 1627 CA GLU 599 24.506 45.556 24.4341.00 21.90 BTKA ATOM 1628 CB GLU 599 25.965 46.063 24.418 1.00 25.83BTKA ATOM 1629 CG GLU 599 26.155 47.580 24.303 1.00 25.70 BTKA ATOM 1630CD GLU 599 25.989 48.100 22.887 1.00 29.61 BTKA ATOM 1631 OE1 GLU 59924.842 48.148 22.385 1.00 34.92 BTKA ATOM 1632 OE2 GLU 599 27.018 48.46522.275 1.00 36.19 BTKA ATOM 1633 C GLU 599 23.707 46.290 25.523 1.0022.83 BTKA ATOM 1634 O GLU 599 23.867 45.990 26.704 1.00 21.63 BTKA ATOM1635 N ARG 600 22.903 47.285 25.157 1.00 23.83 BTKA ATOM 1636 CA ARG 60022.120 47.991 26.170 1.00 25.44 BTKA ATOM 1637 CB ARG 600 21.977 49.47725.857 1.00 23.52 BTKA ATOM 1638 CG ARG 600 22.569 50.385 26.941 1.0027.22 BTKA ATOM 1639 CD ARG 600 21.939 50.168 28.326 1.00 31.56 BTKAATOM 1640 NE ARG 600 22.425 51.152 29.296 1.00 30.45 BTKA ATOM 1641 CZARG 600 21.656 51.847 30.136 1.00 28.69 BTKA ATOM 1642 NH1 ARG 60022.211 52.726 30.960 1.00 27.63 BTKA ATOM 1643 NH2 ARG 600 20.344 51.65930.175 1.00 26.46 BTKA ATOM 1644 C ARG 600 20.750 47.351 26.356 1.0026.74 BTKA ATOM 1645 O ARG 600 19.931 47.818 27.162 1.00 27.64 BTKA ATOM1646 N PHE 601 20.492 46.309 25.571 1.00 24.54 BTKA ATOM 1647 CA PHE 60119.243 45.573 25.664 1.00 20.59 BTKA ATOM 1648 CB PHE 601 18.841 44.98924.305 1.00 22.31 BTKA ATOM 1649 CG PHE 601 18.485 46.006 23.266 1.0022.63 BTKA ATOM 1650 CD1 PHE 601 17.177 46.128 22.823 1.00 23.34 BTKAATOM 1651 CD2 PHE 601 19.460 46.791 22.677 1.00 20.08 BTKA ATOM 1652 CE1PHE 601 16.852 47.011 21.809 1.00 20.90 BTKA ATOM 1653 CE2 PHE 60119.138 47.674 21.660 1.00 20.46 BTKA ATOM 1654 CZ PHE 601 17.832 47.78321.225 1.00 22.29 BTKA ATOM 1655 C PHE 601 19.511 44.399 26.588 1.0020.01 BTKA ATOM 1656 O PHE 601 20.624 44.202 27.074 1.00 18.72 BTKA ATOM1657 N THR 602 18.481 43.601 26.801 1.00 22.29 BTKA ATOM 1658 CA THR 60218.582 42.400 27.604 1.00 23.72 BTKA ATOM 1659 CB THR 602 17.681 42.48628.861 1.00 24.01 BTKA ATOM 1660 OG1 THR 602 16.339 42.823 28.478 1.0020.42 BTKA ATOM 1661 CG2 THR 602 18.204 43.538 29.823 1.00 27.75 BTKAATOM 1662 C THR 602 18.061 41.323 26.652 1.00 25.22 BTKA ATOM 1663 O THR602 17.420 41.645 25.644 1.00 27.52 BTKA ATOM 1664 N ASN 603 18.33340.055 26.939 1.00 26.65 BTKA ATOM 1665 CA ASN 603 17.844 38.979 26.0721.00 25.54 BTKA ATOM 1666 CB ASN 603 18.192 37.607 26.662 1.00 20.91BTKA ATOM 1667 CG ASN 603 19.674 37.298 26.576 1.00 25.12 BTKA ATOM 1668OD1 ASN 603 20.490 38.194 26.385 1.00 25.37 BTKA ATOM 1669 ND2 ASN 60320.026 36.028 26.704 1.00 26.15 BTKA ATOM 1670 C ASN 603 16.337 39.08225.803 1.00 25.43 BTKA ATOM 1671 O ASN 603 15.864 38.698 24.736 1.0023.83 BTKA ATOM 1672 N SER 604 15.597 39.655 26.747 1.00 26.48 BTKA ATOM1673 CA SER 604 14.152 39.806 26.602 1.00 24.32 BTKA ATOM 1674 CB SER604 13.487 39.881 27.977 1.00 24.89 BTKA ATOM 1675 OG SER 604 14.12140.858 28.786 1.00 27.86 BTKA ATOM 1676 C SER 604 13.767 41.025 25.7681.00 21.82 BTKA ATOM 1677 O SER 604 12.799 40.983 25.005 1.00 19.52 BTKAATOM 1678 N GLU 605 14.505 42.118 25.933 1.00 23.74 BTKA ATOM 1679 CAGLU 605 14.229 43.343 25.181 1.00 21.76 BTKA ATOM 1680 CB GLU 605 14.93744.543 25.815 1.00 19.06 BTKA ATOM 1681 CG GLU 605 14.413 44.880 27.2131.00 21.14 BTKA ATOM 1682 CD GLU 605 15.253 45.914 27.930 1.00 18.46BTKA ATOM 1683 OE1 GLU 605 14.730 46.576 28.850 1.00 22.19 BTKA ATOM1684 OE2 GLU 605 16.443 46.064 27.583 1.00 25.21 BTKA ATOM 1685 C GLU605 14.656 43.159 23.733 1.00 19.22 BTKA ATOM 1686 O GLU 605 14.02043.688 22.820 1.00 17.88 BTKA ATOM 1687 N THR 606 15.710 42.374 23.5341.00 19.68 BTKA ATOM 1688 CA THR 606 16.231 42.064 22.205 1.00 17.05BTKA ATOM 1689 CB THR 606 17.471 41.148 22.306 1.00 15.00 BTKA ATOM 1690OG1 THR 606 18.458 41.769 23.139 1.00 15.89 BTKA ATOM 1691 CG2 THR 60618.056 40.871 20.938 1.00 12.52 BTKA ATOM 1692 C THR 606 15.138 41.33921.418 1.00 16.80 BTKA ATOM 1693 O THR 606 14.900 41.637 20.243 1.0018.76 BTKA ATOM 1694 N ALA 607 14.457 40.408 22.084 1.00 16.21 BTKA ATOM1695 CA ALA 607 13.377 39.648 21.467 1.00 16.69 BTKA ATOM 1696 CB ALA607 12.926 38.532 22.384 1.00 14.32 BTKA ATOM 1697 C ALA 607 12.21140.573 21.138 1.00 17.62 BTKA ATOM 1698 O ALA 607 11.574 40.417 20.0981.00 21.64 BTKA ATOM 1699 N GLU 608 11.940 41.540 22.015 1.00 16.80 BTKAATOM 1700 CA GLU 608 10.855 42.497 21.792 1.00 17.47 BTKA ATOM 1701 CBGLU 608 10.574 43.312 23.064 1.00 24.26 BTKA ATOM 1702 CG GLU 608 9.97942.503 24.219 1.00 31.87 BTKA ATOM 1703 CD GLU 608 9.562 43.363 25.4141.00 32.17 BTKA ATOM 1704 OE1 GLU 608 8.411 43.210 25.892 1.00 33.50BTKA ATOM 1705 OE2 GLU 608 10.386 44.183 25.886 1.00 34.89 BTKA ATOM1706 C GLU 608 11.207 43.438 20.631 1.00 13.51 BTKA ATOM 1707 O GLU 60810.370 43.714 19.765 1.00 5.86 BTKA ATOM 1708 N HIS 609 12.472 43.86520.603 1.00 9.80 BTKA ATOM 1709 CA HIS 609 13.025 44.762 19.586 1.006.26 BTKA ATOM 1710 CB HIS 609 14.509 45.014 19.886 1.00 6.17 BTKA ATOM1711 CG HIS 609 15.179 45.976 18.950 1.00 7.14 BTKA ATOM 1712 CD2 HIS609 15.978 45.769 17.879 1.00 9.08 BTKA ATOM 1713 ND1 HIS 609 15.11447.342 19.116 1.00 10.07 BTKA ATOM 1714 CE1 HIS 609 15.848 47.935 18.1921.00 4.17 BTKA ATOM 1715 NE2 HIS 609 16.384 47.002 17.427 1.00 8.56 BTKAATOM 1716 C HIS 609 12.881 44.121 18.221 1.00 9.48 BTKA ATOM 1717 O HIS609 12.489 44.782 17.255 1.00 11.18 BTKA ATOM 1718 N ILE 610 13.21442.839 18.138 1.00 8.84 BTKA ATOM 1719 CA ILE 610 13.106 42.113 16.8811.00 11.99 BTKA ATOM 1720 CB ILE 610 13.869 40.758 16.945 1.00 13.75BTKA ATOM 1721 CG2 ILE 610 13.211 39.701 16.048 1.00 13.99 BTKA ATOM1722 CG1 ILE 610 15.345 40.991 16.594 1.00 6.66 BTKA ATOM 1723 CD ILE610 16.188 39.734 16.592 1.00 8.43 BTKA ATOM 1724 C ILE 610 11.63541.923 16.527 1.00 14.02 BTKA ATOM 1725 O ILE 610 11.257 41.964 15.3561.00 12.60 BTKA ATOM 1726 N ALA 611 10.802 41.798 17.557 1.00 15.80 BTKAATOM 1727 CA ALA 611 9.368 41.631 17.377 1.00 14.09 BTKA ATOM 1728 CBALA 611 8.713 41.313 18.710 1.00 15.18 BTKA ATOM 1729 C ALA 611 8.75942.889 16.767 1.00 13.18 BTKA ATOM 1730 O ALA 611 7.688 42.843 16.1741.00 16.50 BTKA ATOM 1731 N GLN 612 9.448 44.012 16.918 1.00 9.26 BTKAATOM 1732 CA GLN 612 8.996 45.288 16.369 1.00 9.32 BTKA ATOM 1733 CB GLN612 9.538 46.438 17.214 1.00 12.00 BTKA ATOM 1734 CG GLN 612 9.26646.315 18.699 1.00 15.05 BTKA ATOM 1735 CD GLN 612 8.041 47.065 19.1151.00 19.92 BTKA ATOM 1736 OE1 GLN 612 6.918 46.656 18.833 1.00 26.26BTKA ATOM 1737 NE2 GLN 612 8.246 48.194 19.773 1.00 24.14 BTKA ATOM 1738C GLN 612 9.497 45.470 14.939 1.00 8.38 BTKA ATOM 1739 O GLN 612 9.18446.471 14.285 1.00 8.92 BTKA ATOM 1740 N GLY 613 10.308 44.523 14.4761.00 11.09 BTKA ATOM 1741 CA GLY 613 10.861 44.598 13.135 1.00 10.83BTKA ATOM 1742 C GLY 613 12.164 45.381 13.076 1.00 12.46 BTKA ATOM 1743O GLY 613 12.642 45.711 11.993 1.00 8.12 BTKA ATOM 1744 N LEU 614 12.73645.690 14.237 1.00 10.93 BTKA ATOM 1745 CA LEU 614 13.988 46.439 14.3001.00 11.92 BTKA ATOM 1746 CB LEU 614 14.012 47.375 15.518 1.00 9.21 BTKAATOM 1747 CG LEU 614 13.103 48.609 15.581 1.00 11.29 BTKA ATOM 1748 CD1LEU 614 12.426 48.880 14.249 1.00 11.46 BTKA ATOM 1749 CD2 LEU 61412.078 48.433 16.656 1.00 4.88 BTKA ATOM 1750 C LEU 614 15.188 45.49514.330 1.00 11.01 BTKA ATOM 1751 O LEU 614 15.148 44.424 14.947 1.009.79 BTKA ATOM 1752 N ARG 615 16.273 45.920 13.694 1.00 12.00 BTKA ATOM1753 CA ARG 615 17.484 45.117 13.603 1.00 9.33 BTKA ATOM 1754 CB ARG 61517.704 44.713 12.144 1.00 9.55 BTKA ATOM 1755 CG ARG 615 16.518 44.02311.488 1.00 7.26 BTKA ATOM 1756 CD ARG 615 16.209 42.703 12.141 1.003.51 BTKA ATOM 1757 NE ARG 615 15.114 42.016 11.473 1.00 7.24 BTKA ATOM1758 CZ ARG 615 13.889 41.891 11.976 1.00 8.86 BTKA ATOM 1759 NH1 ARG615 13.582 42.421 13.156 1.00 7.13 BTKA ATOM 1760 NH2 ARG 615 12.98641.170 11.329 1.00 8.16 BTKA ATOM 1761 C ARG 615 18.704 45.885 14.0981.00 8.91 BTKA ATOM 1762 O ARG 615 18.570 46.921 14.762 1.00 7.60 BTKAATOM 1763 N LEU 616 19.887 45.379 13.756 1.00 7.61 BTKA ATOM 1764 CA LEU616 21.155 45.990 14.138 1.00 9.07 BTKA ATOM 1765 CB LEU 616 22.25544.927 14.183 1.00 9.04 BTKA ATOM 1766 CG LEU 616 22.202 43.944 15.3551.00 9.90 BTKA ATOM 1767 CD1 LEU 616 23.034 42.705 15.046 1.00 6.52 BTKAATOM 1768 CD2 LEU 616 22.690 44.632 16.623 1.00 8.47 BTKA ATOM 1769 CLEU 616 21.545 47.094 13.162 1.00 7.88 BTKA ATOM 1770 O LEU 616 21.68246.848 11.965 1.00 11.49 BTKA ATOM 1771 N TYR 617 21.770 48.295 13.6961.00 9.86 BTKA ATOM 1772 CA TYR 617 22.133 49.480 12.913 1.00 6.95 BTKAATOM 1773 CB TYR 617 22.440 50.653 13.853 1.00 8.23 BTKA ATOM 1774 CGTYR 617 23.719 50.515 14.674 1.00 11.82 BTKA ATOM 1775 CD1 TYR 61724.923 51.090 14.244 1.00 11.55 BTKA ATOM 1776 CE1 TYR 617 26.086 51.01115.021 1.00 9.18 BTKA ATOM 1777 CD2 TYR 617 23.714 49.856 15.897 1.0010.14 BTKA ATOM 1778 CE2 TYR 617 24.869 49.777 16.682 1.00 15.29 BTKAATOM 1779 CZ TYR 617 26.047 50.358 16.240 1.00 13.29 BTKA ATOM 1780 OHTYR 617 27.167 50.305 17.043 1.00 10.85 BTKA ATOM 1781 C TYR 617 23.31549.298 11.962 1.00 7.09 BTKA ATOM 1782 O TYR 617 24.166 48.440 12.1821.00 6.00 BTKA ATOM 1783 N ARG 618 23.391 50.146 10.938 1.00 7.06 BTKAATOM 1784 CA ARG 618 24.498 50.072 9.990 1.00 13.07 BTKA ATOM 1785 CBARG 618 24.271 50.947 8.752 1.00 11.95 BTKA ATOM 1786 CG ARG 618 25.38950.761 7.721 1.00 12.02 BTKA ATOM 1787 CD ARG 618 25.823 52.046 7.0281.00 12.70 BTKA ATOM 1788 NE ARG 618 24.896 52.504 5.996 1.00 10.05 BTKAATOM 1789 CZ ARG 618 25.263 53.226 4.939 1.00 8.38 BTKA ATOM 1790 NH1ARG 618 26.535 53.561 4.769 1.00 8.75 BTKA ATOM 1791 NH2 ARG 618 24.35253.659 4.076 1.00 8.27 BTKA ATOM 1792 C ARG 618 25.767 50.547 10.6681.00 15.11 BTKA ATOM 1793 O ARG 618 25.798 51.647 11.223 1.00 18.30 BTKAATOM 1794 N PRO 619 26.803 49.694 10.713 1.00 17.30 BTKA ATOM 1795 CDPRO 619 26.790 48.234 10.509 1.00 15.23 BTKA ATOM 1796 CA PRO 619 28.04550.130 11.353 1.00 16.98 BTKA ATOM 1797 CB PRO 619 28.740 48.808 11.6831.00 16.78 BTKA ATOM 1798 CG PRO 619 28.237 47.876 10.651 1.00 13.87BTKA ATOM 1799 C PRO 619 28.871 51.039 10.430 1.00 16.87 BTKA ATOM 1800O PRO 619 28.956 50.805 9.229 1.00 15.47 BTKA ATOM 1801 N HIS 620 29.42952.101 11.008 1.00 16.43 BTKA ATOM 1802 CA HIS 620 30.243 53.088 10.2871.00 19.75 BTKA ATOM 1803 CB HIS 620 30.946 54.021 11.290 1.00 19.36BTKA ATOM 1804 CG HIS 620 31.863 53.317 12.247 1.00 20.09 BTKA ATOM 1805CD2 HIS 620 33.211 53.355 12.384 1.00 21.52 BTKA ATOM 1806 ND1 HIS 62031.407 52.455 13.222 1.00 20.76 BTKA ATOM 1807 CE1 HIS 620 32.434 51.98813.912 1.00 16.73 BTKA ATOM 1808 NE2 HIS 620 33.538 52.519 13.423 1.0017.10 BTKA ATOM 1809 C HIS 620 31.257 52.589 9.239 1.00 21.42 BTKA ATOM1810 O HIS 620 31.646 53.344 8.347 1.00 22.39 BTKA ATOM 1811 N LEU 62131.695 51.338 9.346 1.00 19.75 BTKA ATOM 1812 CA LEU 621 32.661 50.7938.396 1.00 16.60 BTKA ATOM 1813 CB LEU 621 33.712 49.948 9.118 1.0013.75 BTKA ATOM 1814 CG LEU 621 34.539 50.612 10.226 1.00 9.81 BTKA ATOM1815 CD1 LEU 621 35.542 49.613 10.742 1.00 4.63 BTKA ATOM 1816 CD2 LEU621 35.248 51.863 9.713 1.00 9.43 BTKA ATOM 1817 C LEU 621 32.010 49.9667.296 1.00 17.19 BTKA ATOM 1818 O LEU 621 32.694 49.260 6.558 1.00 18.71BTKA ATOM 1819 N ALA 622 30.690 50.054 7.184 1.00 18.73 BTKA ATOM 1820CA ALA 622 29.958 49.309 6.171 1.00 14.75 BTKA ATOM 1821 CB ALA 62228.886 48.449 6.826 1.00 16.96 BTKA ATOM 1822 C ALA 622 29.322 50.2485.158 1.00 14.61 BTKA ATOM 1823 O ALA 622 28.808 51.309 5.512 1.00 15.18BTKA ATOM 1824 N SER 623 29.396 49.875 3.886 1.00 16.92 BTKA ATOM 1825CA SER 623 28.793 50.670 2.825 1.00 14.96 BTKA ATOM 1826 CB SER 62329.433 50.326 1.479 1.00 10.06 BTKA ATOM 1827 OG SER 623 29.253 48.9581.163 1.00 7.67 BTKA ATOM 1828 C SER 623 27.309 50.336 2.785 1.00 13.91BTKA ATOM 1829 O SER 623 26.867 49.392 3.433 1.00 15.97 BTKA ATOM 1830 NGLU 624 26.541 51.112 2.028 1.00 15.15 BTKA ATOM 1831 CA GLU 624 25.11050.868 1.888 1.00 16.38 BTKA ATOM 1832 CB GLU 624 24.469 51.937 0.9981.00 17.21 BTKA ATOM 1833 CG GLU 624 22.974 51.725 0.755 1.00 19.41 BTKAATOM 1834 CD GLU 624 22.452 52.478 −0.459 1.00 18.43 BTKA ATOM 1835 OE1GLU 624 21.396 53.129 −0.339 1.00 16.44 BTKA ATOM 1836 OE2 GLU 62423.083 52.406 −1.539 1.00 21.39 BTKA ATOM 1837 C GLU 624 24.937 49.4991.241 1.00 16.27 BTKA ATOM 1838 O GLU 624 23.935 48.824 1.451 1.00 20.19BTKA ATOM 1839 N LYS 625 25.933 49.111 0.447 1.00 15.04 BTKA ATOM 1840CA LYS 625 25.955 47.832 −0.251 1.00 14.80 BTKA ATOM 1841 CB LYS 62526.989 47.874 −1.379 1.00 15.10 BTKA ATOM 1842 CG LYS 625 26.462 48.451−2.693 1.00 19.31 BTKA ATOM 1843 CD LYS 625 25.903 49.878 −2.565 1.0022.31 BTKA ATOM 1844 CE LYS 625 26.977 50.965 −2.680 1.00 21.63 BTKAATOM 1845 NZ LYS 625 27.815 51.133 −1.465 1.00 17.99 BTKA ATOM 1846 CLYS 625 26.253 46.667 0.702 1.00 15.85 BTKA ATOM 1847 O LYS 625 25.56345.645 0.678 1.00 16.83 BTKA ATOM 1848 N VAL 626 27.275 46.828 1.5391.00 13.15 BTKA ATOM 1849 CA VAL 626 27.648 45.803 2.502 1.00 8.16 BTKAATOM 1850 CB VAL 626 28.954 46.166 3.228 1.00 4.19 BTKA ATOM 1851 CG1VAL 626 29.170 45.266 4.437 1.00 9.56 BTKA ATOM 1852 CG2 VAL 626 30.12746.037 2.264 1.00 2.00 BTKA ATOM 1853 C VAL 626 26.523 45.649 3.508 1.0010.56 BTKA ATOM 1854 O VAL 626 26.211 44.538 3.947 1.00 15.38 BTKA ATOM1855 N TYR 627 25.870 46.754 3.837 1.00 11.00 BTKA ATOM 1856 CA TYR 62724.774 46.696 4.791 1.00 6.70 BTKA ATOM 1857 CB TYR 627 24.406 48.0895.303 1.00 5.85 BTKA ATOM 1858 CG TYR 627 23.438 48.052 6.462 1.00 5.63BTKA ATOM 1859 CD1 TYR 627 23.826 47.547 7.699 1.00 5.65 BTKA ATOM 1860CE1 TYR 627 22.943 47.500 8.765 1.00 3.44 BTKA ATOM 1861 CD2 TYR 62722.133 48.510 6.320 1.00 5.85 BTKA ATOM 1862 CE2 TYR 627 21.237 48.4657.383 1.00 7.61 BTKA ATOM 1863 CZ TYR 627 21.649 47.960 8.601 1.00 4.93BTKA ATOM 1864 OH TYR 627 20.768 47.925 9.657 1.00 9.76 BTKA ATOM 1865 CTYR 627 23.566 46.005 4.182 1.00 2.00 BTKA ATOM 1866 O TYR 627 22.81645.355 4.884 1.00 7.93 BTKA ATOM 1867 N THR 628 23.407 46.106 2.871 1.004.56 BTKA ATOM 1868 CA THR 628 22.293 45.463 2.189 1.00 6.68 BTKA ATOM1869 CB THR 628 22.226 45.882 0.704 1.00 12.25 BTKA ATOM 1870 OG1 THR628 21.878 47.270 0.608 1.00 11.09 BTKA ATOM 1871 CG2 THR 628 21.19645.057 −0.043 1.00 12.83 BTKA ATOM 1872 C THR 628 22.382 43.938 2.2841.00 3.84 BTKA ATOM 1873 O THR 628 21.372 43.266 2.450 1.00 2.00 BTKAATOM 1874 N ILE 629 23.586 43.389 2.197 1.00 6.46 BTKA ATOM 1875 CA ILE629 23.728 41.941 2.274 1.00 7.81 BTKA ATOM 1876 CB ILE 629 25.06741.425 1.645 1.00 8.16 BTKA ATOM 1877 CG2 ILE 629 25.040 41.634 0.1541.00 5.31 BTKA ATOM 1878 CG1 ILE 629 26.287 42.154 2.207 1.00 12.39 BTKAATOM 1879 CD ILE 629 27.561 41.905 1.398 1.00 16.00 BTKA ATOM 1880 C ILE629 23.482 41.373 3.676 1.00 7.41 BTKA ATOM 1881 O ILE 629 22.753 40.3853.829 1.00 5.64 BTKA ATOM 1882 N MET 630 24.014 42.025 4.705 1.00 6.37BTKA ATOM 1883 CA MET 630 23.790 41.527 6.052 1.00 8.30 BTKA ATOM 1884CB MET 630 24.765 42.147 7.057 1.00 9.46 BTKA ATOM 1885 CG MET 63024.540 43.605 7.371 1.00 12.86 BTKA ATOM 1886 SD MET 630 25.803 44.1788.496 1.00 14.55 BTKA ATOM 1887 CE MET 630 24.866 44.657 9.833 1.0015.03 BTKA ATOM 1888 C MET 630 22.344 41.777 6.472 1.00 9.78 BTKA ATOM1889 O MET 630 21.709 40.917 7.084 1.00 13.22 BTKA ATOM 1890 N TYR 63121.794 42.920 6.080 1.00 9.86 BTKA ATOM 1891 CA TYR 631 20.420 43.2356.446 1.00 9.86 BTKA ATOM 1892 CB TYR 631 20.040 44.662 6.028 1.00 10.36BTKA ATOM 1893 CG TYR 631 18.706 45.099 6.592 1.00 16.09 BTKA ATOM 1894CD1 TYR 631 17.519 44.790 5.929 1.00 17.24 BTKA ATOM 1895 CE1 TYR 63116.283 45.124 6.463 1.00 15.16 BTKA ATOM 1896 CD2 TYR 631 18.622 45.7687.811 1.00 14.11 BTKA ATOM 1897 CE2 TYR 631 17.380 46.112 8.359 1.0017.22 BTKA ATOM 1898 CZ TYR 631 16.218 45.784 7.674 1.00 16.41 BTKA ATOM1899 OH TYR 631 14.975 46.120 8.166 1.00 18.16 BTKA ATOM 1900 C TYR 63119.415 42.228 5.892 1.00 10.69 BTKA ATOM 1901 O TYR 631 18.403 41.9496.532 1.00 12.38 BTKA ATOM 1902 N SER 632 19.698 41.666 4.721 1.00 9.17BTKA ATOM 1903 CA SER 632 18.796 40.692 4.113 1.00 10.83 BTKA ATOM 1904CB SER 632 19.314 40.280 2.728 1.00 6.49 BTKA ATOM 1905 OG SER 63220.564 39.615 2.807 1.00 2.00 BTKA ATOM 1906 C SER 632 18.626 39.4504.983 1.00 9.86 BTKA ATOM 1907 O SER 632 17.565 38.827 4.991 1.00 10.42BTKA ATOM 1908 N CYS 633 19.667 39.117 5.740 1.00 11.03 BTKA ATOM 1909CA CYS 633 19.677 37.933 6.599 1.00 7.43 BTKA ATOM 1910 CB CYS 63321.060 37.759 7.231 1.00 6.63 BTKA ATOM 1911 SG CYS 633 22.373 37.4286.045 1.00 4.09 BTKA ATOM 1912 C CYS 633 18.632 37.940 7.699 1.00 6.70BTKA ATOM 1913 O CYS 633 18.215 36.888 8.177 1.00 8.11 BTKA ATOM 1914 NTRP 634 18.156 39.125 8.043 1.00 6.33 BTKA ATOM 1915 CA TRP 634 17.20639.273 9.129 1.00 9.48 BTKA ATOM 1916 CB TRP 634 17.666 40.428 10.0101.00 9.15 BTKA ATOM 1917 CG TRP 634 19.135 40.440 10.331 1.00 4.86 BTKAATOM 1918 CD2 TRP 634 19.974 41.590 10.376 1.00 3.49 BTKA ATOM 1919 CE2TRP 634 21.261 41.154 10.756 1.00 2.25 BTKA ATOM 1920 CE3 TRP 634 19.77042.955 10.140 1.00 3.18 BTKA ATOM 1921 CD1 TRP 634 19.918 39.378 10.6711.00 2.00 BTKA ATOM 1922 NE1 TRP 634 21.197 39.797 10.930 1.00 2.34 BTKAATOM 1923 CZ2 TRP 634 22.332 42.035 10.904 1.00 2.00 BTKA ATOM 1924 CZ3TRP 634 20.835 43.827 10.291 1.00 2.00 BTKA ATOM 1925 CH2 TRP 634 22.09843.361 10.668 1.00 2.00 BTKA ATOM 1926 C TRP 634 15.768 39.537 8.6971.00 10.94 BTKA ATOM 1927 O TRP 634 15.015 40.182 9.422 1.00 13.81 BTKAATOM 1928 N HIS 635 15.340 38.956 7.588 1.00 11.56 BTKA ATOM 1929 CA HIS635 13.997 39.231 7.090 1.00 13.40 BTKA ATOM 1930 CB HIS 635 13.83338.692 5.670 1.00 8.93 BTKA ATOM 1931 CG HIS 635 12.712 39.336 4.9231.00 7.82 BTKA ATOM 1932 CD2 HIS 635 12.720 40.264 3.936 1.00 9.65 BTKAATOM 1933 ND1 HIS 635 11.386 39.124 5.236 1.00 6.04 BTKA ATOM 1934 CE1HIS 635 10.627 39.896 4.484 1.00 6.47 BTKA ATOM 1935 NE2 HIS 635 11.41040.598 3.687 1.00 11.66 BTKA ATOM 1936 C HIS 635 12.720 38.940 7.8881.00 16.55 BTKA ATOM 1937 O HIS 635 11.689 39.543 7.589 1.00 21.21 BTKAATOM 1938 N GLU 636 12.758 38.053 8.877 1.00 16.72 BTKA ATOM 1939 CA GLU636 11.563 37.677 9.675 1.00 16.32 BTKA ATOM 1940 CB GLU 636 10.52438.810 9.812 1.00 18.59 BTKA ATOM 1941 CG GLU 636 9.347 38.458 10.7301.00 25.85 BTKA ATOM 1942 CD GLU 636 8.003 39.015 10.258 1.00 28.55 BTKAATOM 1943 OE1 GLU 636 7.772 39.080 9.030 1.00 29.75 BTKA ATOM 1944 OE2GLU 636 7.161 39.364 11.115 1.00 28.67 BTKA ATOM 1945 C GLU 636 10.92536.492 8.966 1.00 16.71 BTKA ATOM 1946 O GLU 636 10.924 35.384 9.4921.00 19.32 BTKA ATOM 1947 N LYS 637 10.385 36.728 7.773 1.00 16.09 BTKAATOM 1948 CA LYS 637 9.798 35.654 6.979 1.00 15.70 BTKA ATOM 1949 CB LYS637 9.072 36.210 5.740 1.00 14.04 BTKA ATOM 1950 CG LYS 637 8.061 37.3206.012 1.00 14.27 BTKA ATOM 1951 CD LYS 637 6.625 36.817 6.109 1.00 21.34BTKA ATOM 1952 CE LYS 637 6.472 35.700 7.120 1.00 21.37 BTKA ATOM 1953NZ LYS 637 6.679 34.358 6.495 1.00 22.42 BTKA ATOM 1954 C LYS 637 10.99634.830 6.510 1.00 15.02 BTKA ATOM 1955 O LYS 637 11.751 35.270 5.6361.00 14.64 BTKA ATOM 1956 N ALA 638 11.190 33.665 7.116 1.00 12.71 BTKAATOM 1957 CA ALA 638 12.294 32.778 6.769 1.00 9.49 BTKA ATOM 1958 CB ALA638 12.074 31.417 7.398 1.00 11.57 BTKA ATOM 1959 C ALA 638 12.57432.621 5.270 1.00 12.33 BTKA ATOM 1960 O ALA 638 13.724 32.764 4.8401.00 9.51 BTKA ATOM 1961 N ASP 639 11.526 32.378 4.475 1.00 11.12 BTKAATOM 1962 CA ASP 639 11.678 32.163 3.030 1.00 11.04 BTKA ATOM 1963 CBASP 639 10.431 31.478 2.426 1.00 13.90 BTKA ATOM 1964 CG ASP 639 9.18132.358 2.437 1.00 13.58 BTKA ATOM 1965 OD1 ASP 639 9.270 33.586 2.6261.00 15.17 BTKA ATOM 1966 OD2 ASP 639 8.081 31.808 2.235 1.00 15.41 BTKAATOM 1967 C ASP 639 12.074 33.366 2.185 1.00 10.51 BTKA ATOM 1968 O ASP639 12.206 33.258 0.962 1.00 3.89 BTKA ATOM 1969 N GLU 640 12.203 34.5172.836 1.00 10.52 BTKA ATOM 1970 CA GLU 640 12.575 35.754 2.169 1.0011.19 BTKA ATOM 1971 CB GLU 640 11.673 36.892 2.640 1.00 14.28 BTKA ATOM1972 CG GLU 640 11.180 37.808 1.531 1.00 24.80 BTKA ATOM 1973 CD GLU 6409.741 37.523 1.125 1.00 30.36 BTKA ATOM 1974 OE1 GLU 640 9.499 37.238−0.072 1.00 34.01 BTKA ATOM 1975 OE2 GLU 640 8.849 37.602 2.002 1.0036.33 BTKA ATOM 1976 C GLU 640 14.030 36.074 2.496 1.00 9.22 BTKA ATOM1977 O GLU 640 14.556 37.117 2.120 1.00 10.28 BTKA ATOM 1978 N ARG 64114.658 35.185 3.249 1.00 8.49 BTKA ATOM 1979 CA ARG 641 16.048 35.3433.626 1.00 10.21 BTKA ATOM 1980 CB ARG 641 16.256 34.861 5.069 1.00 8.41BTKA ATOM 1981 CG ARG 641 15.151 35.391 5.991 1.00 10.60 BTKA ATOM 1982CD ARG 641 15.623 35.692 7.392 1.00 13.17 BTKA ATOM 1983 NE ARG 64115.831 34.497 8.189 1.00 18.11 BTKA ATOM 1984 CZ ARG 641 14.942 34.0079.045 1.00 15.39 BTKA ATOM 1985 NH1 ARG 641 13.776 34.608 9.222 1.0014.59 BTKA ATOM 1986 NH2 ARG 641 15.228 32.917 9.734 1.00 13.36 BTKAATOM 1987 C ARG 641 16.834 34.519 2.608 1.00 11.06 BTKA ATOM 1988 O ARG641 16.490 33.367 2.320 1.00 8.77 BTKA ATOM 1989 N PRO 642 17.843 35.1411.982 1.00 11.46 BTKA ATOM 1990 CD PRO 642 18.197 36.544 2.242 1.0010.26 BTKA ATOM 1991 CA PRO 642 18.733 34.573 0.961 1.00 13.85 BTKA ATOM1992 CB PRO 642 19.725 35.710 0.721 1.00 16.79 BTKA ATOM 1993 CG PRO 64218.897 36.914 0.967 1.00 15.67 BTKA ATOM 1994 C PRO 642 19.471 33.3011.348 1.00 12.77 BTKA ATOM 1995 O PRO 642 19.570 32.959 2.522 1.00 11.54BTKA ATOM 1996 N THR 643 19.977 32.597 0.342 1.00 11.30 BTKA ATOM 1997CA THR 643 20.747 31.389 0.580 1.00 10.65 BTKA ATOM 1998 CB THR 64320.667 30.414 −0.614 1.00 6.97 BTKA ATOM 1999 OG1 THR 643 21.115 31.067−1.807 1.00 10.04 BTKA ATOM 2000 CG2 THR 643 19.255 29.934 −0.813 1.008.33 BTKA ATOM 2001 C THR 643 22.201 31.829 0.778 1.00 10.25 BTKA ATOM2002 O THR 643 22.545 32.983 0.520 1.00 13.36 BTKA ATOM 2003 N PHE 64423.044 30.920 1.255 1.00 9.85 BTKA ATOM 2004 CA PHE 644 24.454 31.2231.459 1.00 8.80 BTKA ATOM 2005 CB PHE 644 25.125 30.152 2.314 1.00 6.23BTKA ATOM 2006 CG PHE 644 24.910 30.343 3.782 1.00 7.15 BTKA ATOM 2007CD1 PHE 644 25.331 31.515 4.405 1.00 9.73 BTKA ATOM 2008 CD2 PHE 64424.268 29.367 4.543 1.00 4.29 BTKA ATOM 2009 CE1 PHE 644 25.117 31.7155.766 1.00 9.97 BTKA ATOM 2010 CE2 PHE 644 24.048 29.554 5.900 1.00 2.00BTKA ATOM 2011 CZ PHE 644 24.473 30.732 6.515 1.00 8.09 BTKA ATOM 2012 CPHE 644 25.175 31.387 0.136 1.00 6.83 BTKA ATOM 2013 O PHE 644 26.13232.146 0.042 1.00 6.14 BTKA ATOM 2014 N ALA 645 24.679 30.703 −0.8931.00 10.54 BTKA ATOM 2015 CA ALA 645 25.247 30.791 −2.241 1.00 9.84 BTKAATOM 2016 CB ALA 645 24.635 29.730 −3.150 1.00 14.63 BTKA ATOM 2017 CALA 645 24.976 32.179 −2.809 1.00 9.74 BTKA ATOM 2018 O ALA 645 25.81532.751 −3.512 1.00 11.66 BTKA ATOM 2019 N ILE 646 23.787 32.705 −2.5341.00 10.19 BTKA ATOM 2020 CA ILE 646 23.434 34.029 −3.015 1.00 9.44 BTKAATOM 2021 CB ILE 646 21.912 34.306 −2.904 1.00 10.35 BTKA ATOM 2022 CG2ILE 646 21.615 35.788 −3.117 1.00 9.73 BTKA ATOM 2023 CG1 ILE 646 21.16333.467 −3.945 1.00 12.53 BTKA ATOM 2024 CD ILE 646 19.749 33.935 −4.2201.00 10.68 BTKA ATOM 2025 C ILE 646 24.237 35.057 −2.234 1.00 8.64 BTKAATOM 2026 O ILE 646 24.792 35.987 −2.820 1.00 12.42 BTKA ATOM 2027 N LEU647 24.329 34.870 −0.923 1.00 5.16 BTKA ATOM 2028 CA LEU 647 25.09635.777 −0.076 1.00 5.21 BTKA ATOM 2029 CB LEU 647 25.049 35.331 1.3831.00 6.62 BTKA ATOM 2030 CG LEU 647 23.782 35.668 2.152 1.00 2.00 BTKAATOM 2031 CD1 LEU 647 23.785 34.910 3.454 1.00 7.11 BTKA ATOM 2032 CD2LEU 647 23.705 37.180 2.390 1.00 6.32 BTKA ATOM 2033 C LEU 647 26.53835.803 −0.538 1.00 4.59 BTKA ATOM 2034 O LEU 647 27.151 36.859 −0.6151.00 9.34 BTKA ATOM 2035 N LEU 648 27.083 34.632 −0.838 1.00 6.10 BTKAATOM 2036 CA LEU 648 28.454 34.540 −1.307 1.00 7.56 BTKA ATOM 2037 CBLEU 648 28.901 33.087 −1.407 1.00 6.76 BTKA ATOM 2038 CG LEU 648 30.31332.904 −1.953 1.00 5.57 BTKA ATOM 2039 CD1 LEU 648 31.338 33.392 −0.9511.00 8.87 BTKA ATOM 2040 CD2 LEU 648 30.531 31.456 −2.262 1.00 9.05 BTKAATOM 2041 C LEU 648 28.603 35.218 −2.662 1.00 7.15 BTKA ATOM 2042 O LEU648 29.619 35.860 −2.914 1.00 5.11 BTKA ATOM 2043 N SER 649 27.60635.079 −3.535 1.00 7.37 BTKA ATOM 2044 CA SER 649 27.684 35.715 −4.8481.00 11.39 BTKA ATOM 2045 CB SER 649 26.619 35.172 −5.826 1.00 13.66BTKA ATOM 2046 OG SER 649 25.352 35.803 −5.718 1.00 18.95 BTKA ATOM 2047C SER 649 27.588 37.226 −4.674 1.00 13.90 BTKA ATOM 2048 O SER 64928.255 37.979 −5.384 1.00 14.33 BTKA ATOM 2049 N ASN 650 26.813 37.666−3.685 1.00 15.59 BTKA ATOM 2050 CA ASN 650 26.669 39.097 −3.418 1.0014.80 BTKA ATOM 2051 CB ASN 650 25.655 39.351 −2.301 1.00 15.49 BTKAATOM 2052 CG ASN 650 24.218 39.195 −2.758 1.00 13.88 BTKA ATOM 2053 OD1ASN 650 23.911 39.333 −3.941 1.00 16.71 BTKA ATOM 2054 ND2 ASN 65023.323 38.920 −1.814 1.00 18.03 BTKA ATOM 2055 C ASN 650 28.035 39.590−2.975 1.00 16.71 BTKA ATOM 2056 O ASN 650 28.627 40.461 −3.602 1.0018.95 BTKA ATOM 2057 N ILE 651 28.553 38.972 −1.920 1.00 17.37 BTKA ATOM2058 CA ILE 651 29.856 39.315 −1.368 1.00 16.71 BTKA ATOM 2059 CB ILE651 30.300 38.269 −0.330 1.00 16.01 BTKA ATOM 2060 CG2 ILE 651 31.76638.473 0.049 1.00 16.81 BTKA ATOM 2061 CG1 ILE 651 29.397 38.333 0.9021.00 18.86 BTKA ATOM 2062 CD ILE 651 29.787 37.353 1.998 1.00 18.13 BTKAATOM 2063 C ILE 651 30.936 39.407 −2.441 1.00 17.88 BTKA ATOM 2064 O ILE651 31.730 40.340 −2.442 1.00 17.27 BTKA ATOM 2065 N LEU 652 30.97938.425 −3.333 1.00 17.38 BTKA ATOM 2066 CA LEU 652 31.988 38.410 −4.3831.00 16.93 BTKA ATOM 2067 CB LEU 652 31.927 37.097 −5.174 1.00 16.89BTKA ATOM 2068 CG LEU 652 32.426 35.821 −4.496 1.00 14.36 BTKA ATOM 2069CD1 LEU 652 32.223 34.644 −5.415 1.00 17.00 BTKA ATOM 2070 CD2 LEU 65233.890 35.966 −4.155 1.00 17.94 BTKA ATOM 2071 C LEU 652 31.864 39.593−5.339 1.00 17.77 BTKA ATOM 2072 O LEU 652 32.869 40.153 −5.775 1.0014.19 BTKA ATOM 2073 N ASP 653 30.626 39.958 −5.660 1.00 16.94 BTKA ATOM2074 CA ASP 653 30.338 41.052 −6.583 1.00 18.91 BTKA ATOM 2075 CB ASP653 28.839 41.029 −6.933 1.00 22.19 BTKA ATOM 2076 CG ASP 653 28.51141.768 −8.220 1.00 27.15 BTKA ATOM 2077 OD1 ASP 653 28.383 43.014 −8.1901.00 26.08 BTKA ATOM 2078 OD2 ASP 653 28.338 41.094 −9.261 1.00 29.58BTKA ATOM 2079 C ASP 653 30.743 42.397 −5.971 1.00 16.94 BTKA ATOM 2080O ASP 653 30.021 42.968 −5.153 1.00 18.07 BTKA ATOM 2081 N VAL 65431.910 42.883 −6.363 1.00 17.09 BTKA ATOM 2082 CA VAL 654 32.448 44.156−5.873 1.00 19.99 BTKA ATOM 2083 CB VAL 654 32.525 44.192 −4.285 1.0015.42 BTKA ATOM 2084 CG1 VAL 654 33.538 43.189 −3.741 1.00 19.20 BTKAATOM 2085 CG2 VAL 654 32.836 45.587 −3.792 1.00 15.46 BTKA ATOM 2086 CVAL 654 33.831 44.409 −6.521 1.00 21.38 BTKA ATOM 2087 OT1 VAL 65434.043 45.515 −7.073 1.00 20.29 BTKA ATOM 2088 OT2 VAL 654 34.668 43.475−6.533 1.00 23.32 BTKA TER 2088 VAL 654 BTKA ATOM 2089 CB ILE 397 34.82244.259 42.166 1.00 28.06 BTKB ATOM 2090 CG2 ILE 397 35.367 43.761 43.5011.00 30.24 BTKB ATOM 2091 CG1 ILE 397 33.354 44.660 42.302 1.00 27.51BTKB ATOM 2092 CD ILE 397 32.460 43.563 42.838 1.00 31.05 BTKB ATOM 2093C ILE 397 37.125 45.091 41.610 1.00 29.53 BTKB ATOM 2094 O ILE 39737.977 45.873 42.022 1.00 31.32 BTKB ATOM 2095 N ILE 397 35.200 45.88440.296 1.00 27.80 BTKB ATOM 2096 CA ILE 397 35.647 45.461 41.653 1.0029.30 BTKB ATOM 2097 N ASP 398 37.413 43.917 41.052 1.00 29.94 BTKB ATOM2098 CA ASP 398 38.771 43.396 40.924 1.00 28.21 BTKB ATOM 2099 CB ASP398 38.711 41.951 40.409 1.00 27.14 BTKB ATOM 2100 CG ASP 398 40.05541.431 39.939 1.00 28.88 BTKB ATOM 2101 OD1 ASP 398 40.805 40.866 40.7601.00 29.93 BTKB ATOM 2102 OD2 ASP 398 40.353 41.565 38.735 1.00 29.99BTKB ATOM 2103 C ASP 398 39.631 44.248 39.999 1.00 30.83 BTKB ATOM 2104O ASP 398 39.299 44.428 38.823 1.00 28.34 BTKB ATOM 2105 N PRO 39940.726 44.819 40.529 1.00 30.97 BTKB ATOM 2106 CD PRO 399 41.104 44.84441.953 1.00 29.33 BTKB ATOM 2107 CA PRO 399 41.633 45.654 39.735 1.0030.72 BTKB ATOM 2108 CB PRO 399 42.689 46.073 40.760 1.00 33.06 BTKBATOM 2109 CG PRO 399 41.908 46.118 42.044 1.00 32.66 BTKB ATOM 2110 CPRO 399 42.236 44.809 38.611 1.00 30.41 BTKB ATOM 2111 O PRO 399 43.22944.106 38.808 1.00 27.77 BTKB ATOM 2112 N LYS 400 41.618 44.906 37.4351.00 31.71 BTKB ATOM 2113 CA LYS 400 41.991 44.169 36.225 1.00 32.73BTKB ATOM 2114 CB LYS 400 41.466 44.913 34.992 1.00 31.73 BTKB ATOM 2115CG LYS 400 41.243 44.014 33.789 1.00 31.68 BTKB ATOM 2116 CD LYS 40040.893 44.804 32.545 1.00 29.01 BTKB ATOM 2117 CE LYS 400 40.459 43.88231.409 1.00 27.04 BTKB ATOM 2118 NZ LYS 400 39.176 43.195 31.722 1.0025.44 BTKB ATOM 2119 C LYS 400 43.453 43.746 35.993 1.00 35.08 BTKB ATOM2120 O LYS 400 43.710 42.872 35.157 1.00 32.76 BTKB ATOM 2121 N ASP 40144.410 44.363 36.684 1.00 37.73 BTKB ATOM 2122 CA ASP 401 45.807 43.98736.493 1.00 38.72 BTKB ATOM 2123 CB ASP 401 46.682 45.209 36.209 1.0038.08 BTKB ATOM 2124 CG ASP 401 48.080 44.824 35.748 1.00 38.22 BTKBATOM 2125 OD1 ASP 401 48.992 44.757 36.599 1.00 39.11 BTKB ATOM 2126 OD2ASP 401 48.262 44.564 34.539 1.00 40.47 BTKB ATOM 2127 C ASP 401 46.37543.195 37.668 1.00 40.61 BTKB ATOM 2128 O ASP 401 46.429 43.683 38.8021.00 39.92 BTKB ATOM 2129 N LEU 402 46.832 41.982 37.365 1.00 39.68 BTKBATOM 2130 CA LEU 402 47.412 41.076 38.347 1.00 35.79 BTKB ATOM 2131 CBLEU 402 46.300 40.318 39.083 1.00 30.36 BTKB ATOM 2132 CG LEU 402 45.29639.475 38.286 1.00 25.43 BTKB ATOM 2133 CD1 LEU 402 44.710 38.416 39.2001.00 25.89 BTKB ATOM 2134 CD2 LEU 402 44.189 40.326 37.678 1.00 19.90BTKB ATOM 2135 C LEU 402 48.339 40.090 37.627 1.00 36.68 BTKB ATOM 2136O LEU 402 48.350 40.034 36.396 1.00 37.32 BTKB ATOM 2137 N THR 40349.128 39.332 38.385 1.00 38.28 BTKB ATOM 2138 CA THR 403 50.047 38.35637.798 1.00 39.00 BTKB ATOM 2139 CB THR 403 50.922 37.688 38.885 1.0038.43 BTKB ATOM 2140 OG1 THR 403 51.318 38.666 39.857 1.00 39.19 BTKBATOM 2141 CG2 THR 403 52.165 37.073 38.262 1.00 34.76 BTKB ATOM 2142 CTHR 403 49.258 37.270 37.050 1.00 41.52 BTKB ATOM 2143 O THR 403 48.10336.993 37.392 1.00 43.01 BTKB ATOM 2144 N PHE 404 49.884 36.663 36.0411.00 40.42 BTKB ATOM 2145 CA PHE 404 49.262 35.613 35.226 1.00 38.98BTKB ATOM 2146 CB PHE 404 48.349 36.210 34.143 1.00 38.33 BTKB ATOM 2147CG PHE 404 48.701 37.620 33.748 1.00 39.41 BTKB ATOM 2148 CD1 PHE 40447.704 38.578 33.617 1.00 39.35 BTKB ATOM 2149 CD2 PHE 404 50.026 38.00033.542 1.00 40.12 BTKB ATOM 2150 CE1 PHE 404 48.016 39.892 33.293 1.0039.05 BTKB ATOM 2151 CE2 PHE 404 50.351 39.314 33.218 1.00 39.92 BTKBATOM 2152 CZ PHE 404 49.344 40.261 33.094 1.00 41.14 BTKB ATOM 2153 CPHE 404 50.316 34.723 34.578 1.00 38.11 BTKB ATOM 2154 O PHE 404 51.26335.217 33.974 1.00 38.10 BTKB ATOM 2155 N LEU 405 50.151 33.412 34.7221.00 39.17 BTKB ATOM 2156 CA LEU 405 51.096 32.450 34.168 1.00 38.13BTKB ATOM 2157 CB LEU 405 51.676 31.575 35.285 1.00 39.62 BTKB ATOM 2158CG LEU 405 52.874 32.193 36.020 1.00 42.57 BTKB ATOM 2159 CD1 LEU 40553.105 31.533 37.378 1.00 41.80 BTKB ATOM 2160 CD2 LEU 405 54.112 32.08635.140 1.00 40.80 BTKB ATOM 2161 C LEU 405 50.504 31.596 33.050 1.0036.37 BTKB ATOM 2162 O LEU 405 50.680 31.910 31.872 1.00 38.19 BTKB ATOM2163 N LYS 406 49.832 30.506 33.398 1.00 33.49 BTKB ATOM 2164 CA LYS 40649.229 29.657 32.379 1.00 31.11 BTKB ATOM 2165 CB LYS 406 49.715 28.20132.487 1.00 32.83 BTKB ATOM 2166 CG LYS 406 49.155 27.413 33.671 1.0031.89 BTKB ATOM 2167 CD LYS 406 49.709 25.994 33.712 1.00 29.73 BTKBATOM 2168 CE LYS 406 49.132 25.197 34.874 1.00 25.18 BTKB ATOM 2169 NZLYS 406 47.664 24.987 34.754 1.00 23.18 BTKB ATOM 2170 C LYS 406 47.72129.727 32.544 1.00 31.03 BTKB ATOM 2171 O LYS 406 47.194 30.685 33.1261.00 29.59 BTKB ATOM 2172 N GLU 407 47.038 28.689 32.075 1.00 28.47 BTKBATOM 2173 CA GLU 407 45.592 28.615 32.145 1.00 24.70 BTKB ATOM 2174 CBGLU 407 45.028 28.721 30.723 1.00 25.09 BTKB ATOM 2175 CG GLU 407 43.57529.148 30.632 1.00 27.67 BTKB ATOM 2176 CD GLU 407 42.666 28.087 30.0621.00 28.92 BTKB ATOM 2177 OE1 GLU 407 41.443 28.231 30.229 1.00 30.56BTKB ATOM 2178 OE2 GLU 407 43.157 27.114 29.450 1.00 32.96 BTKB ATOM2179 C GLU 407 45.220 27.272 32.764 1.00 22.29 BTKB ATOM 2180 O GLU 40746.096 26.485 33.116 1.00 24.55 BTKB ATOM 2181 N LEU 408 43.924 27.03732.924 1.00 21.71 BTKB ATOM 2182 CA LEU 408 43.411 25.787 33.470 1.0021.08 BTKB ATOM 2183 CB LEU 408 42.611 26.020 34.751 1.00 20.12 BTKBATOM 2184 CG LEU 408 43.312 25.979 36.104 1.00 17.11 BTKB ATOM 2185 CD1LEU 408 44.189 27.196 36.305 1.00 16.68 BTKB ATOM 2186 CD2 LEU 40842.244 25.924 37.169 1.00 20.38 BTKB ATOM 2187 C LEU 408 42.513 25.11332.444 1.00 21.69 BTKB ATOM 2188 O LEU 408 42.883 24.088 31.872 1.0025.66 BTKB ATOM 2189 N GLY 409 41.345 25.697 32.191 1.00 26.47 BTKB ATOM2190 CA GLY 409 40.426 25.099 31.233 1.00 30.31 BTKB ATOM 2191 C GLY 40939.026 25.681 31.179 1.00 31.13 BTKB ATOM 2192 O GLY 409 38.864 26.83930.800 1.00 28.40 BTKB ATOM 2193 N THR 410 38.023 24.897 31.586 1.0034.19 BTKB ATOM 2194 CA THR 410 36.623 25.337 31.563 1.00 35.54 BTKBATOM 2195 CB THR 410 35.974 25.015 30.188 1.00 39.00 BTKB ATOM 2196 OG1THR 410 36.807 25.525 29.140 1.00 42.12 BTKB ATOM 2197 CG2 THR 41034.576 25.635 30.069 1.00 36.90 BTKB ATOM 2198 C THR 410 35.758 24.71332.673 1.00 34.43 BTKB ATOM 2199 O THR 410 36.028 23.601 33.141 1.0031.80 BTKB ATOM 2200 N GLY 411 34.721 25.447 33.076 1.00 33.66 BTKB ATOM2201 CA GLY 411 33.801 24.986 34.102 1.00 32.04 BTKB ATOM 2202 C GLY 41132.351 25.093 33.645 1.00 32.34 BTKB ATOM 2203 O GLY 411 31.738 24.09333.280 1.00 33.64 BTKB ATOM 2204 N GLN 412 31.811 26.308 33.623 1.0031.61 BTKB ATOM 2205 CA GLN 412 30.426 26.513 33.207 1.00 28.88 BTKBATOM 2206 CB GLN 412 29.567 26.874 34.418 1.00 30.03 BTKB ATOM 2207 CGGLN 412 28.212 26.192 34.445 1.00 31.90 BTKB ATOM 2208 CD GLN 412 28.29424.745 34.891 1.00 31.28 BTKB ATOM 2209 OE1 GLN 412 29.317 24.084 34.7151.00 31.63 BTKB ATOM 2210 NE2 GLN 412 27.217 24.250 35.493 1.00 28.67BTKB ATOM 2211 C GLN 412 30.270 27.600 32.140 1.00 28.86 BTKB ATOM 2212O GLN 412 29.267 27.638 31.418 1.00 28.11 BTKB ATOM 2213 N PHE 41331.234 28.512 32.074 1.00 28.97 BTKB ATOM 2214 CA PHE 413 31.188 29.59331.097 1.00 28.08 BTKB ATOM 2215 CB PHE 413 31.388 30.954 31.773 1.0028.79 BTKB ATOM 2216 CG PHE 413 30.221 31.403 32.594 1.00 26.11 BTKBATOM 2217 CD1 PHE 413 29.317 32.325 32.084 1.00 30.79 BTKB ATOM 2218 CD2PHE 413 30.023 30.904 33.872 1.00 29.49 BTKB ATOM 2219 CE1 PHE 41328.229 32.740 32.833 1.00 33.14 BTKB ATOM 2220 CE2 PHE 413 28.935 31.31334.633 1.00 31.02 BTKB ATOM 2221 CZ PHE 413 28.036 32.234 34.113 1.0033.86 BTKB ATOM 2222 C PHE 413 32.248 29.403 30.027 1.00 30.53 BTKB ATOM2223 O PHE 413 31.989 28.797 28.987 1.00 34.18 BTKB ATOM 2224 N GLY 41433.453 29.889 30.306 1.00 29.58 BTKB ATOM 2225 CA GLY 414 34.527 29.78129.343 1.00 29.36 BTKB ATOM 2226 C GLY 414 35.824 29.289 29.938 1.0030.73 BTKB ATOM 2227 O GLY 414 35.824 28.404 30.806 1.00 29.03 BTKB ATOM2228 N VAL 415 36.918 29.917 29.507 1.00 31.12 BTKB ATOM 2229 CA VAL 41538.273 29.569 29.930 1.00 29.86 BTKB ATOM 2230 CB VAL 415 39.292 29.89528.818 1.00 28.63 BTKB ATOM 2231 CG1 VAL 415 39.093 28.976 27.636 1.0020.44 BTKB ATOM 2232 CG2 VAL 415 39.158 31.341 28.388 1.00 28.08 BTKBATOM 2233 C VAL 415 38.773 30.174 31.247 1.00 33.07 BTKB ATOM 2234 O VAL415 38.753 31.395 31.441 1.00 34.75 BTKB ATOM 2235 N VAL 416 39.26829.307 32.125 1.00 33.11 BTKB ATOM 2236 CA VAL 416 39.792 29.716 33.4261.00 33.57 BTKB ATOM 2237 CB VAL 416 39.158 28.867 34.561 1.00 36.44BTKB ATOM 2238 CG1 VAL 416 39.077 27.402 34.147 1.00 38.53 BTKB ATOM2239 CG2 VAL 416 39.944 29.014 35.860 1.00 36.43 BTKB ATOM 2240 C VAL416 41.326 29.621 33.437 1.00 32.35 BTKB ATOM 2241 O VAL 416 41.88028.539 33.264 1.00 32.92 BTKB ATOM 2242 N LYS 417 42.000 30.762 33.5951.00 28.13 BTKB ATOM 2243 CA LYS 417 43.470 30.834 33.601 1.00 22.76BTKB ATOM 2244 CB LYS 417 43.920 32.071 32.810 1.00 21.32 BTKB ATOM 2245CG LYS 417 43.060 32.342 31.574 1.00 24.74 BTKB ATOM 2246 CD LYS 41743.513 33.567 30.806 1.00 23.99 BTKB ATOM 2247 CE LYS 417 42.534 33.94629.710 1.00 15.58 BTKB ATOM 2248 NZ LYS 417 42.968 35.229 29.104 1.0020.25 BTKB ATOM 2249 C LYS 417 44.014 30.895 35.031 1.00 18.43 BTKB ATOM2250 O LYS 417 43.265 30.665 35.976 1.00 17.13 BTKB ATOM 2251 N ALA 41845.298 31.214 35.195 1.00 14.44 BTKB ATOM 2252 CA ALA 418 45.898 31.30136.533 1.00 18.16 BTKB ATOM 2253 CB ALA 418 46.737 30.057 36.834 1.0018.21 BTKB ATOM 2254 C ALA 418 46.750 32.548 36.706 1.00 18.40 BTKB ATOM2255 O ALA 418 47.448 32.962 35.783 1.00 19.90 BTKB ATOM 2256 N GLY 41946.724 33.116 37.905 1.00 20.29 BTKB ATOM 2257 CA GLY 419 47.507 34.30838.176 1.00 20.56 BTKB ATOM 2258 C GLY 419 47.617 34.626 39.651 1.0022.74 BTKB ATOM 2259 O GLY 419 47.091 33.895 40.487 1.00 24.36 BTKB ATOM2260 N ALA 420 48.305 35.712 39.982 1.00 23.32 BTKB ATOM 2261 CA ALA 42048.460 36.110 41.378 1.00 23.35 BTKB ATOM 2262 CB ALA 420 49.927 36.12541.774 1.00 23.90 BTKB ATOM 2263 C ALA 420 47.837 37.484 41.587 1.0021.75 BTKB ATOM 2264 O ALA 420 48.198 38.448 40.912 1.00 24.80 BTKB ATOM2265 N TRP 421 46.870 37.556 42.490 1.00 18.99 BTKB ATOM 2266 CA TRP 42146.184 38.800 42.789 1.00 19.16 BTKB ATOM 2267 CB TRP 421 44.683 38.54842.875 1.00 21.71 BTKB ATOM 2268 CG TRP 421 43.869 39.797 42.944 1.0023.50 BTKB ATOM 2269 CD2 TRP 421 42.920 40.148 43.959 1.00 22.38 BTKBATOM 2270 CE2 TRP 421 42.370 41.394 43.599 1.00 25.22 BTKB ATOM 2271 CE3TRP 421 42.482 39.528 45.137 1.00 26.12 BTKB ATOM 2272 CD1 TRP 42143.859 40.817 42.041 1.00 21.67 BTKB ATOM 2273 NE1 TRP 421 42.962 41.77842.425 1.00 26.88 BTKB ATOM 2274 CZ2 TRP 421 41.402 42.036 44.372 1.0026.92 BTKB ATOM 2275 CZ3 TRP 421 41.521 40.166 45.907 1.00 27.03 BTKBATOM 2276 CH2 TRP 421 40.991 41.408 45.520 1.00 26.73 BTKB ATOM 2277 CTRP 421 46.694 39.348 44.114 1.00 20.06 BTKB ATOM 2278 O TRP 421 46.90538.587 45.059 1.00 21.40 BTKB ATOM 2279 N ARG 422 46.907 40.664 44.1661.00 22.24 BTKB ATOM 2280 CA ARG 422 47.394 41.358 45.366 1.00 24.43BTKB ATOM 2281 CB ARG 422 46.387 41.228 46.520 1.00 25.85 BTKB ATOM 2282CG ARG 422 44.960 41.672 46.222 1.00 27.33 BTKB ATOM 2283 CD ARG 42244.832 43.176 46.095 1.00 29.62 BTKB ATOM 2284 NE ARG 422 43.473 43.62246.388 1.00 29.09 BTKB ATOM 2285 CZ ARG 422 42.944 43.659 47.607 1.0028.92 BTKB ATOM 2286 NH1 ARG 422 41.698 44.078 47.781 1.00 31.54 BTKBATOM 2287 NH2 ARG 422 43.654 43.273 48.657 1.00 31.57 BTKB ATOM 2288 CARG 422 48.761 40.854 45.841 1.00 26.12 BTKB ATOM 2289 O ARG 422 49.06840.896 47.033 1.00 24.76 BTKB ATOM 2290 N GLY 423 49.551 40.328 44.9111.00 27.65 BTKB ATOM 2291 CA GLY 423 50.879 39.826 45.235 1.00 27.28BTKB ATOM 2292 C GLY 423 50.970 38.814 46.366 1.00 28.60 BTKB ATOM 2293O GLY 423 52.057 38.569 46.892 1.00 28.45 BTKB ATOM 2294 N ALA 42449.848 38.200 46.724 1.00 29.60 BTKB ATOM 2295 CA ALA 424 49.841 37.21647.800 1.00 27.82 BTKB ATOM 2296 CB ALA 424 49.602 37.902 49.142 1.0030.88 BTKB ATOM 2297 C ALA 424 48.807 36.124 47.584 1.00 25.78 BTKB ATOM2298 O ALA 424 48.987 35.002 48.047 1.00 25.99 BTKB ATOM 2299 N ALA 42547.739 36.442 46.862 1.00 24.03 BTKB ATOM 2300 CA ALA 425 46.677 35.47646.604 1.00 24.48 BTKB ATOM 2301 CB ALA 425 45.313 36.151 46.782 1.0020.10 BTKB ATOM 2302 C ALA 425 46.762 34.806 45.227 1.00 23.85 BTKB ATOM2303 O ALA 425 46.766 35.479 44.194 1.00 23.75 BTKB ATOM 2304 N ASP 42646.863 33.481 45.214 1.00 23.12 BTKB ATOM 2305 CA ASP 426 46.907 32.73943.955 1.00 22.00 BTKB ATOM 2306 CB ASP 426 47.540 31.360 44.162 1.0027.54 BTKB ATOM 2307 CG ASP 426 49.016 31.443 44.531 1.00 28.92 BTKBATOM 2308 OD1 ASP 426 49.596 30.404 44.915 1.00 30.24 BTKB ATOM 2309 OD2ASP 426 49.600 32.544 44.435 1.00 28.52 BTKB ATOM 2310 C ASP 426 45.46932.615 43.458 1.00 17.08 BTKB ATOM 2311 O ASP 426 44.567 32.310 44.2371.00 15.85 BTKB ATOM 2312 N VAL 427 45.255 32.841 42.166 1.00 13.56 BTKBATOM 2313 CA VAL 427 43.909 32.810 41.603 1.00 12.45 BTKB ATOM 2314 CBVAL 427 43.340 34.246 41.418 1.00 10.01 BTKB ATOM 2315 CG1 VAL 42743.282 34.991 42.741 1.00 12.17 BTKB ATOM 2316 CG2 VAL 427 44.184 35.01540.409 1.00 12.71 BTKB ATOM 2317 C VAL 427 43.767 32.131 40.246 1.0013.93 BTKB ATOM 2318 O VAL 427 44.742 31.905 39.528 1.00 15.85 BTKB ATOM2319 N ALA 428 42.517 31.853 39.898 1.00 12.30 BTKB ATOM 2320 CA ALA 42842.152 31.245 38.631 1.00 12.30 BTKB ATOM 2321 CB ALA 428 41.386 29.95738.871 1.00 10.91 BTKB ATOM 2322 C ALA 428 41.238 32.288 38.023 1.0010.93 BTKB ATOM 2323 O ALA 428 40.383 32.823 38.724 1.00 12.65 BTKB ATOM2324 N ILE 429 41.436 32.618 36.750 1.00 12.14 BTKB ATOM 2325 CA ILE 42940.597 33.622 36.110 1.00 14.63 BTKB ATOM 2326 CB ILE 429 41.441 34.83235.525 1.00 13.45 BTKB ATOM 2327 CG2 ILE 429 42.825 34.396 35.083 1.0015.33 BTKB ATOM 2328 CG1 ILE 429 40.693 35.558 34.415 1.00 7.39 BTKBATOM 2329 CD ILE 429 40.969 35.023 33.036 1.00 16.26 BTKB ATOM 2330 CILE 429 39.573 33.051 35.124 1.00 18.66 BTKB ATOM 2331 O ILE 429 39.93432.469 34.095 1.00 19.46 BTKB ATOM 2332 N LYS 430 38.295 33.199 35.4821.00 19.80 BTKB ATOM 2333 CA LYS 430 37.161 32.726 34.689 1.00 21.31BTKB ATOM 2334 CB LYS 430 35.978 32.421 35.606 1.00 20.55 BTKB ATOM 2335CG LYS 430 34.755 31.868 34.901 1.00 25.20 BTKB ATOM 2336 CD LYS 43034.992 30.445 34.442 1.00 29.40 BTKB ATOM 2337 CE LYS 430 33.692 29.77034.064 1.00 29.23 BTKB ATOM 2338 NZ LYS 430 32.682 29.854 35.162 1.0033.94 BTKB ATOM 2339 C LYS 430 36.749 33.769 33.650 1.00 21.71 BTKB ATOM2340 O LYS 430 36.214 34.820 33.994 1.00 17.94 BTKB ATOM 2341 N MET 43136.968 33.438 32.382 1.00 24.22 BTKB ATOM 2342 CA MET 431 36.668 34.32031.260 1.00 26.94 BTKB ATOM 2343 CB MET 431 37.814 34.211 30.257 1.0029.16 BTKB ATOM 2344 CG MET 431 37.670 35.004 28.993 1.00 28.32 BTKBATOM 2345 SD MET 431 38.671 34.218 27.732 1.00 29.24 BTKB ATOM 2346 CEMET 431 37.422 33.825 26.504 1.00 30.72 BTKB ATOM 2347 C MET 431 35.33933.992 30.575 1.00 30.22 BTKB ATOM 2348 O MET 431 34.966 32.823 30.4471.00 32.27 BTKB ATOM 2349 N ILE 432 34.632 35.031 30.129 1.00 34.07 BTKBATOM 2350 CA ILE 432 33.343 34.858 29.452 1.00 35.28 BTKB ATOM 2351 CBILE 432 32.218 35.740 30.089 1.00 34.75 BTKB ATOM 2352 CG2 ILE 43230.852 35.123 29.802 1.00 33.26 BTKB ATOM 2353 CG1 ILE 432 32.396 35.85831.606 1.00 33.83 BTKB ATOM 2354 CD ILE 432 32.347 34.538 32.352 1.0035.34 BTKB ATOM 2355 C ILE 432 33.499 35.208 27.964 1.00 33.87 BTKB ATOM2356 O ILE 432 34.414 34.717 27.309 1.00 34.55 BTKB ATOM 2357 N LYS 43332.623 36.067 27.445 1.00 33.43 BTKB ATOM 2358 CA LYS 433 32.646 36.49926.045 1.00 31.18 BTKB ATOM 2359 CB LYS 433 31.888 35.507 25.146 1.0027.65 BTKB ATOM 2360 CG LYS 433 32.416 34.073 25.107 1.00 24.55 BTKBATOM 2361 CD LYS 433 33.793 33.983 24.475 1.00 27.10 BTKB ATOM 2362 CELYS 433 33.807 34.598 23.094 1.00 24.68 BTKB ATOM 2363 NZ LYS 433 35.14534.557 22.439 1.00 18.58 BTKB ATOM 2364 C LYS 433 31.910 37.837 25.9851.00 30.74 BTKB ATOM 2365 O LYS 433 30.782 37.944 26.483 1.00 29.85 BTKBATOM 2366 N GLU 434 32.535 38.861 25.410 1.00 30.55 BTKB ATOM 2367 CAGLU 434 31.863 40.153 25.300 1.00 29.48 BTKB ATOM 2368 CB GLU 434 32.85041.282 24.994 1.00 29.95 BTKB ATOM 2369 CG GLU 434 32.215 42.691 24.9911.00 26.07 BTKB ATOM 2370 CD GLU 434 33.233 43.829 24.915 1.00 21.62BTKB ATOM 2371 OE1 GLU 434 34.425 43.574 24.649 1.00 24.27 BTKB ATOM2372 OE2 GLU 434 32.837 44.992 25.130 1.00 19.02 BTKB ATOM 2373 C GLU434 30.835 40.005 24.189 1.00 31.41 BTKB ATOM 2374 O GLU 434 31.04740.420 23.054 1.00 29.99 BTKB ATOM 2375 N GLY 435 29.742 39.334 24.5261.00 35.03 BTKB ATOM 2376 CA GLY 435 28.671 39.085 23.581 1.00 37.48BTKB ATOM 2377 C GLY 435 27.610 38.249 24.270 1.00 39.46 BTKB ATOM 2378O GLY 435 26.795 37.605 23.613 1.00 40.93 BTKB ATOM 2379 N SER 43627.626 38.257 25.603 1.00 37.43 BTKB ATOM 2380 CA SER 436 26.671 37.49726.392 1.00 37.99 BTKB ATOM 2381 CB SER 436 27.107 36.030 26.476 1.0041.23 BTKB ATOM 2382 OG SER 436 27.624 35.565 25.240 1.00 42.60 BTKBATOM 2383 C SER 436 26.560 38.083 27.799 1.00 39.64 BTKB ATOM 2384 O SER436 25.600 38.789 28.110 1.00 41.69 BTKB ATOM 2385 N MET 437 27.55537.798 28.640 1.00 39.73 BTKB ATOM 2386 CA MET 437 27.580 38.277 30.0241.00 38.94 BTKB ATOM 2387 CB MET 437 28.591 37.462 30.832 1.00 40.22BTKB ATOM 2388 CG MET 437 28.318 37.367 32.325 1.00 35.33 BTKB ATOM 2389SD MET 437 29.214 35.957 33.007 1.00 41.10 BTKB ATOM 2390 CE MET 43729.769 36.561 34.621 1.00 31.14 BTKB ATOM 2391 C MET 437 27.923 39.76730.095 1.00 39.09 BTKB ATOM 2392 O MET 437 28.389 40.353 29.114 1.0036.63 BTKB ATOM 2393 N SER 438 27.723 40.367 31.267 1.00 39.27 BTKB ATOM2394 CA SER 438 27.990 41.787 31.447 1.00 37.97 BTKB ATOM 2395 CB SER438 26.845 42.593 30.835 1.00 38.54 BTKB ATOM 2396 OG SER 438 25.60342.171 31.372 1.00 33.86 BTKB ATOM 2397 C SER 438 28.150 42.199 32.9061.00 36.36 BTKB ATOM 2398 O SER 438 27.639 41.529 33.805 1.00 34.72 BTKBATOM 2399 N GLU 439 28.807 43.339 33.117 1.00 37.58 BTKB ATOM 2400 CAGLU 439 29.034 43.904 34.452 1.00 37.09 BTKB ATOM 2401 CB GLU 439 29.94545.139 34.361 1.00 37.29 BTKB ATOM 2402 CG GLU 439 29.372 46.302 33.5371.00 37.02 BTKB ATOM 2403 CD GLU 439 30.217 47.572 33.606 1.00 36.40BTKB ATOM 2404 OE1 GLU 439 30.640 47.957 34.719 1.00 36.07 BTKB ATOM2405 OE2 GLU 439 30.450 48.195 32.544 1.00 35.38 BTKB ATOM 2406 C GLU439 27.728 44.309 35.146 1.00 36.76 BTKB ATOM 2407 O GLU 439 27.69644.522 36.363 1.00 32.43 BTKB ATOM 2408 N ASP 440 26.662 44.426 34.3591.00 35.30 BTKB ATOM 2409 CA ASP 440 25.362 44.826 34.867 1.00 32.48BTKB ATOM 2410 CB ASP 440 24.662 45.730 33.848 1.00 36.16 BTKB ATOM 2411CG ASP 440 25.592 46.775 33.253 1.00 40.98 BTKB ATOM 2412 OD1 ASP 44025.560 47.945 33.691 1.00 39.71 BTKB ATOM 2413 OD2 ASP 440 26.358 46.42632.334 1.00 37.76 BTKB ATOM 2414 C ASP 440 24.480 43.626 35.179 1.0031.97 BTKB ATOM 2415 O ASP 440 23.521 43.745 35.943 1.00 28.02 BTKB ATOM2416 N GLU 441 24.783 42.477 34.574 1.00 33.36 BTKB ATOM 2417 CA GLU 44123.978 41.278 34.815 1.00 33.34 BTKB ATOM 2418 CB GLU 441 24.000 40.31733.601 1.00 33.19 BTKB ATOM 2419 CG GLU 441 25.090 39.216 33.599 1.0034.36 BTKB ATOM 2420 CD GLU 441 24.702 37.934 34.361 1.00 36.00 BTKBATOM 2421 OE1 GLU 441 25.523 36.989 34.398 1.00 35.37 BTKB ATOM 2422 OE2GLU 441 23.585 37.858 34.918 1.00 34.93 BTKB ATOM 2423 C GLU 441 24.41440.546 36.077 1.00 32.17 BTKB ATOM 2424 O GLU 441 23.586 40.191 36.9301.00 29.45 BTKB ATOM 2425 N PHE 442 25.719 40.357 36.220 1.00 29.54 BTKBATOM 2426 CA PHE 442 26.202 39.631 37.366 1.00 31.35 BTKB ATOM 2427 CBPHE 442 27.382 38.730 36.988 1.00 28.63 BTKB ATOM 2428 CG PHE 442 28.70839.424 36.944 1.00 22.65 BTKB ATOM 2429 CD1 PHE 442 29.837 38.790 37.4401.00 20.14 BTKB ATOM 2430 CD2 PHE 442 28.843 40.683 36.387 1.00 22.28BTKB ATOM 2431 CE1 PHE 442 31.072 39.390 37.379 1.00 17.92 BTKB ATOM2432 CE2 PHE 442 30.081 41.291 36.323 1.00 24.89 BTKB ATOM 2433 CZ PHE442 31.198 40.641 36.822 1.00 18.41 BTKB ATOM 2434 C PHE 442 26.49440.449 38.604 1.00 32.00 BTKB ATOM 2435 O PHE 442 26.809 39.879 39.6341.00 34.02 BTKB ATOM 2436 N ILE 443 26.343 41.767 38.529 1.00 31.37 BTKBATOM 2437 CA ILE 443 26.608 42.613 39.689 1.00 34.20 BTKB ATOM 2438 CBILE 443 26.334 44.114 39.393 1.00 35.12 BTKB ATOM 2439 CG2 ILE 44324.913 44.314 38.889 1.00 35.43 BTKB ATOM 2440 CG1 ILE 443 26.577 44.96140.649 1.00 36.71 BTKB ATOM 2441 CD ILE 443 28.010 44.938 41.152 1.0033.98 BTKB ATOM 2442 C ILE 443 25.758 42.142 40.866 1.00 34.50 BTKB ATOM2443 O ILE 443 26.243 42.006 41.993 1.00 33.00 BTKB ATOM 2444 N GLU 44424.499 41.840 40.577 1.00 33.96 BTKB ATOM 2445 CA GLU 444 23.576 41.36441.593 1.00 33.66 BTKB ATOM 2446 CB GLU 444 22.199 41.122 40.955 1.0034.83 BTKB ATOM 2447 CG GLU 444 21.019 41.072 41.920 1.00 34.28 BTKBATOM 2448 CD GLU 444 20.937 39.782 42.712 1.00 35.97 BTKB ATOM 2449 OE1GLU 444 21.288 38.710 42.167 1.00 32.68 BTKB ATOM 2450 OE2 GLU 44420.501 39.841 43.881 1.00 36.01 BTKB ATOM 2451 C GLU 444 24.159 40.06442.158 1.00 33.11 BTKB ATOM 2452 O GLU 444 24.610 40.024 43.305 1.0030.69 BTKB ATOM 2453 N GLU 445 24.239 39.042 41.307 1.00 32.60 BTKB ATOM2454 CA GLU 445 24.752 37.731 41.688 1.00 30.53 BTKB ATOM 2455 CB GLU445 24.753 36.784 40.486 1.00 31.01 BTKB ATOM 2456 CG GLU 445 23.36636.338 40.032 1.00 28.32 BTKB ATOM 2457 CD GLU 445 23.382 35.007 39.2961.00 28.84 BTKB ATOM 2458 OE1 GLU 445 24.392 34.275 39.386 1.00 28.01BTKB ATOM 2459 OE2 GLU 445 22.372 34.682 38.640 1.00 27.39 BTKB ATOM2460 C GLU 445 26.134 37.732 42.328 1.00 31.12 BTKB ATOM 2461 O GLU 44526.404 36.934 43.225 1.00 33.61 BTKB ATOM 2462 N ALA 446 26.993 38.64341.888 1.00 30.01 BTKB ATOM 2463 CA ALA 446 28.351 38.739 42.410 1.0029.17 BTKB ATOM 2464 CB ALA 446 29.145 39.800 41.655 1.00 27.22 BTKBATOM 2465 C ALA 446 28.312 39.065 43.894 1.00 30.07 BTKB ATOM 2466 O ALA446 28.845 38.317 44.712 1.00 31.57 BTKB ATOM 2467 N LYS 447 27.63440.153 44.240 1.00 30.54 BTKB ATOM 2468 CA LYS 447 27.525 40.574 45.6311.00 29.93 BTKB ATOM 2469 CB LYS 447 26.676 41.847 45.742 1.00 29.51BTKB ATOM 2470 CG LYS 447 27.176 43.023 44.906 1.00 27.76 BTKB ATOM 2471CD LYS 447 28.634 43.362 45.198 1.00 24.63 BTKB ATOM 2472 CE LYS 44728.846 43.812 46.635 1.00 23.47 BTKB ATOM 2473 NZ LYS 447 30.298 43.98446.929 1.00 24.76 BTKB ATOM 2474 C LYS 447 26.917 39.465 46.487 1.0031.89 BTKB ATOM 2475 O LYS 447 27.393 39.194 47.597 1.00 31.20 BTKB ATOM2476 N VAL 448 25.893 38.804 45.949 1.00 31.29 BTKB ATOM 2477 CA VAL 44825.207 37.725 46.651 1.00 30.04 BTKB ATOM 2478 CB VAL 448 23.958 37.25045.882 1.00 29.87 BTKB ATOM 2479 CG1 VAL 448 23.189 36.226 46.705 1.0028.85 BTKB ATOM 2480 CG2 VAL 448 23.062 38.428 45.547 1.00 33.30 BTKBATOM 2481 C VAL 448 26.126 36.531 46.881 1.00 30.34 BTKB ATOM 2482 O VAL448 26.074 35.900 47.939 1.00 31.49 BTKB ATOM 2483 N MET 449 26.96336.215 45.897 1.00 29.17 BTKB ATOM 2484 CA MET 449 27.882 35.091 46.0271.00 27.85 BTKB ATOM 2485 CB MET 449 28.473 34.708 44.676 1.00 27.95BTKB ATOM 2486 CG MET 449 27.570 33.842 43.834 1.00 25.86 BTKB ATOM 2487SD MET 449 27.991 33.992 42.101 1.00 28.55 BTKB ATOM 2488 CE MET 44929.603 33.105 42.046 1.00 24.75 BTKB ATOM 2489 C MET 449 28.994 35.42546.997 1.00 29.13 BTKB ATOM 2490 O MET 449 29.497 34.551 47.694 1.0032.51 BTKB ATOM 2491 N MET 450 29.376 36.696 47.046 1.00 27.71 BTKB ATOM2492 CA MET 450 30.422 37.130 47.955 1.00 25.39 BTKB ATOM 2493 CB MET450 30.926 38.512 47.558 1.00 24.26 BTKB ATOM 2494 CG MET 450 31.55338.506 46.179 1.00 23.94 BTKB ATOM 2495 SD MET 450 32.473 39.970 45.7411.00 32.01 BTKB ATOM 2496 CE MET 450 33.957 39.761 46.735 1.00 25.95BTKB ATOM 2497 C MET 450 29.883 37.103 49.381 1.00 27.55 BTKB ATOM 2498O MET 450 30.627 37.257 50.351 1.00 28.08 BTKB ATOM 2499 N ASN 45128.573 36.904 49.499 1.00 24.81 BTKB ATOM 2500 CA ASN 451 27.919 36.80050.796 1.00 23.63 BTKB ATOM 2501 CB ASN 451 26.414 37.017 50.662 1.0022.42 BTKB ATOM 2502 CG ASN 451 25.999 38.446 50.915 1.00 20.08 BTKBATOM 2503 OD1 ASN 451 24.868 38.701 51.326 1.00 22.32 BTKB ATOM 2504 ND2ASN 451 26.896 39.390 50.656 1.00 17.73 BTKB ATOM 2505 C ASN 451 28.15735.389 51.299 1.00 24.31 BTKB ATOM 2506 O ASN 451 27.841 35.065 52.4471.00 23.55 BTKB ATOM 2507 N LEU 452 28.657 34.539 50.406 1.00 23.43 BTKBATOM 2508 CA LEU 452 28.946 33.146 50.714 1.00 21.56 BTKB ATOM 2509 CBLEU 452 28.585 32.255 49.522 1.00 21.06 BTKB ATOM 2510 CG LEU 452 27.13831.762 49.400 1.00 20.32 BTKB ATOM 2511 CD1 LEU 452 26.150 32.810 49.8691.00 20.52 BTKB ATOM 2512 CD2 LEU 452 26.869 31.351 47.968 1.00 18.22BTKB ATOM 2513 C LEU 452 30.414 32.985 51.050 1.00 22.10 BTKB ATOM 2514O LEU 452 31.280 33.131 50.191 1.00 25.35 BTKB ATOM 2515 N SER 45330.688 32.718 52.317 1.00 22.10 BTKB ATOM 2516 CA SER 453 32.047 32.52552.784 1.00 21.51 BTKB ATOM 2517 CB SER 453 32.537 33.751 53.565 1.0027.28 BTKB ATOM 2518 OG SER 453 32.794 34.849 52.707 1.00 32.08 BTKBATOM 2519 C SER 453 32.051 31.314 53.690 1.00 20.26 BTKB ATOM 2520 O SER453 31.201 31.182 54.576 1.00 21.49 BTKB ATOM 2521 N HIS 454 32.97930.407 53.425 1.00 16.43 BTKB ATOM 2522 CA HIS 454 33.134 29.195 54.2031.00 14.23 BTKB ATOM 2523 CB HIS 454 31.930 28.256 54.025 1.00 13.19BTKB ATOM 2524 CG HIS 454 31.921 27.100 54.982 1.00 12.78 BTKB ATOM 2525CD2 HIS 454 32.496 25.875 54.910 1.00 11.15 BTKB ATOM 2526 ND1 HIS 45431.317 27.164 56.218 1.00 13.51 BTKB ATOM 2527 CE1 HIS 454 31.526 26.03356.871 1.00 12.23 BTKB ATOM 2528 NE2 HIS 454 32.241 25.235 56.099 1.006.57 BTKB ATOM 2529 C HIS 454 34.378 28.535 53.666 1.00 13.02 BTKB ATOM2530 O HIS 454 34.569 28.478 52.462 1.00 14.69 BTKB ATOM 2531 N GLU 45535.225 28.064 54.572 1.00 17.21 BTKB ATOM 2532 CA GLU 455 36.472 27.37354.247 1.00 19.94 BTKB ATOM 2533 CB GLU 455 37.152 26.954 55.569 1.0025.60 BTKB ATOM 2534 CG GLU 455 37.914 25.623 55.594 1.00 26.02 BTKBATOM 2535 CD GLU 455 39.213 25.637 54.816 1.00 23.62 BTKB ATOM 2536 OE1GLU 455 39.525 24.609 54.188 1.00 26.91 BTKB ATOM 2537 OE2 GLU 45539.926 26.661 54.834 1.00 26.89 BTKB ATOM 2538 C GLU 455 36.294 26.17953.294 1.00 18.16 BTKB ATOM 2539 O GLU 455 37.260 25.701 52.706 1.0017.46 BTKB ATOM 2540 N LYS 456 35.059 25.716 53.121 1.00 17.18 BTKB ATOM2541 CA LYS 456 34.791 24.581 52.239 1.00 15.92 BTKB ATOM 2542 CB LYS456 33.958 23.528 52.970 1.00 18.08 BTKB ATOM 2543 CG LYS 456 34.66122.920 54.182 1.00 15.32 BTKB ATOM 2544 CD LYS 456 35.909 22.160 53.7641.00 16.08 BTKB ATOM 2545 CE LYS 456 36.628 21.511 54.935 1.00 14.75BTKB ATOM 2546 NZ LYS 456 37.413 22.460 55.750 1.00 15.29 BTKB ATOM 2547C LYS 456 34.148 24.962 50.897 1.00 16.33 BTKB ATOM 2548 O LYS 45633.760 24.091 50.108 1.00 11.16 BTKB ATOM 2549 N LEU 457 34.015 26.26550.653 1.00 15.73 BTKB ATOM 2550 CA LEU 457 33.454 26.774 49.404 1.0014.51 BTKB ATOM 2551 CB LEU 457 32.349 27.809 49.658 1.00 14.58 BTKBATOM 2552 CG LEU 457 30.948 27.463 50.169 1.00 11.43 BTKB ATOM 2553 CD1LEU 457 30.166 28.752 50.355 1.00 9.22 BTKB ATOM 2554 CD2 LEU 457 30.21626.576 49.186 1.00 13.55 BTKB ATOM 2555 C LEU 457 34.613 27.473 48.7221.00 11.29 BTKB ATOM 2556 O LEU 457 35.400 28.152 49.385 1.00 14.89 BTKBATOM 2557 N VAL 458 34.756 27.282 47.417 1.00 14.60 BTKB ATOM 2558 CAVAL 458 35.831 27.945 46.690 1.00 13.47 BTKB ATOM 2559 CB VAL 458 36.01527.338 45.292 1.00 10.95 BTKB ATOM 2560 CG1 VAL 458 37.107 28.080 44.5231.00 8.36 BTKB ATOM 2561 CG2 VAL 458 36.377 25.870 45.425 1.00 4.94 BTKBATOM 2562 C VAL 458 35.418 29.414 46.627 1.00 17.55 BTKB ATOM 2563 O VAL458 34.339 29.744 46.129 1.00 19.50 BTKB ATOM 2564 N GLN 459 36.25630.288 47.173 1.00 19.70 BTKB ATOM 2565 CA GLN 459 35.930 31.710 47.2311.00 22.06 BTKB ATOM 2566 CB GLN 459 36.572 32.360 48.461 1.00 22.66BTKB ATOM 2567 CG GLN 459 38.082 32.441 48.427 1.00 29.48 BTKB ATOM 2568CD GLN 459 38.657 32.969 49.727 1.00 31.10 BTKB ATOM 2569 OE1 GLN 45939.341 32.248 50.454 1.00 26.32 BTKB ATOM 2570 NE2 GLN 459 38.370 34.23050.033 1.00 29.38 BTKB ATOM 2571 C GLN 459 36.165 32.594 46.019 1.0021.06 BTKB ATOM 2572 O GLN 459 37.209 32.543 45.370 1.00 22.08 BTKB ATOM2573 N LEU 460 35.177 33.435 45.754 1.00 21.47 BTKB ATOM 2574 CA LEU 46035.224 34.395 44.665 1.00 23.95 BTKB ATOM 2575 CB LEU 460 33.786 34.77844.269 1.00 22.50 BTKB ATOM 2576 CG LEU 460 33.466 35.635 43.034 1.0022.00 BTKB ATOM 2577 CD1 LEU 460 31.973 35.572 42.746 1.00 24.79 BTKBATOM 2578 CD2 LEU 460 33.895 37.074 43.243 1.00 22.74 BTKB ATOM 2579 CLEU 460 35.953 35.592 45.278 1.00 24.95 BTKB ATOM 2580 O LEU 460 35.41636.254 46.165 1.00 25.13 BTKB ATOM 2581 N TYR 461 37.198 35.821 44.8731.00 24.81 BTKB ATOM 2582 CA TYR 461 37.966 36.943 45.411 1.00 25.17BTKB ATOM 2583 CB TYR 461 39.457 36.816 45.064 1.00 25.82 BTKB ATOM 2584CG TYR 461 40.199 35.689 45.774 1.00 25.50 BTKB ATOM 2585 CD1 TYR 46140.773 34.643 45.050 1.00 26.73 BTKB ATOM 2586 CE1 TYR 461 41.476 33.61845.682 1.00 24.71 BTKB ATOM 2587 CD2 TYR 461 40.347 35.682 47.161 1.0025.96 BTKB ATOM 2588 CE2 TYR 461 41.050 34.659 47.807 1.00 25.37 BTKBATOM 2589 CZ TYR 461 41.612 33.631 47.058 1.00 25.30 BTKB ATOM 2590 OHTYR 461 42.317 32.622 47.681 1.00 25.28 BTKB ATOM 2591 C TYR 461 37.40738.259 44.871 1.00 27.25 BTKB ATOM 2592 O TYR 461 37.293 39.246 45.5961.00 26.29 BTKB ATOM 2593 N GLY 462 37.041 38.262 43.596 1.00 27.06 BTKBATOM 2594 CA GLY 462 36.499 39.464 42.993 1.00 24.45 BTKB ATOM 2595 CGLY 462 36.196 39.275 41.523 1.00 22.73 BTKB ATOM 2596 O GLY 462 36.55338.262 40.935 1.00 20.21 BTKB ATOM 2597 N VAL 463 35.527 40.253 40.9301.00 24.33 BTKB ATOM 2598 CA VAL 463 35.182 40.198 39.523 1.00 24.62BTKB ATOM 2599 CB VAL 463 33.697 39.891 39.319 1.00 27.36 BTKB ATOM 2600CG1 VAL 463 33.368 38.519 39.854 1.00 33.31 BTKB ATOM 2601 CG2 VAL 46332.843 40.935 40.011 1.00 30.70 BTKB ATOM 2602 C VAL 463 35.478 41.52838.861 1.00 24.47 BTKB ATOM 2603 O VAL 463 35.418 42.584 39.504 1.0024.70 BTKB ATOM 2604 N CYS 464 35.829 41.473 37.584 1.00 27.38 BTKB ATOM2605 CA CYS 464 36.115 42.677 36.828 1.00 29.15 BTKB ATOM 2606 CB CYS464 37.073 42.384 35.675 1.00 33.36 BTKB ATOM 2607 SG CYS 464 37.67743.868 34.853 1.00 38.92 BTKB ATOM 2608 C CYS 464 34.779 43.162 36.3021.00 29.60 BTKB ATOM 2609 O CYS 464 34.321 42.744 35.238 1.00 27.69 BTKBATOM 2610 N THR 465 34.113 43.960 37.125 1.00 31.56 BTKB ATOM 2611 CATHR 465 32.815 44.528 36.807 1.00 30.98 BTKB ATOM 2612 CB THR 465 32.20845.184 38.058 1.00 31.96 BTKB ATOM 2613 OG1 THR 465 33.219 45.959 38.7231.00 30.73 BTKB ATOM 2614 CG2 THR 465 31.652 44.127 39.010 1.00 33.13BTKB ATOM 2615 C THR 465 32.982 45.582 35.731 1.00 31.69 BTKB ATOM 2616O THR 465 32.916 46.778 36.016 1.00 33.93 BTKB ATOM 2617 N LYS 46633.238 45.138 34.508 1.00 32.07 BTKB ATOM 2618 CA LYS 466 33.420 46.04033.379 1.00 31.90 BTKB ATOM 2619 CB LYS 466 34.908 46.348 33.185 1.0029.79 BTKB ATOM 2620 CG LYS 466 35.199 47.726 32.597 1.00 28.18 BTKBATOM 2621 CD LYS 466 34.692 48.854 33.507 1.00 28.96 BTKB ATOM 2622 CELYS 466 33.405 49.481 32.968 1.00 30.68 BTKB ATOM 2623 NZ LYS 466 32.78450.444 33.929 1.00 29.32 BTKB ATOM 2624 C LYS 466 32.844 45.326 32.1621.00 35.07 BTKB ATOM 2625 O LYS 466 32.073 44.374 32.314 1.00 35.06 BTKBATOM 2626 N GLN 467 33.184 45.770 30.956 1.00 39.06 BTKB ATOM 2627 CAGLN 467 32.647 45.103 29.782 1.00 40.26 BTKB ATOM 2628 CB GLN 467 31.61345.967 29.057 1.00 40.39 BTKB ATOM 2629 CG GLN 467 30.831 45.184 28.0051.00 39.46 BTKB ATOM 2630 CD GLN 467 30.526 43.757 28.451 1.00 38.12BTKB ATOM 2631 OE1 GLN 467 31.174 42.807 28.017 1.00 31.06 BTKB ATOM2632 NE2 GLN 467 29.560 43.608 29.344 1.00 37.49 BTKB ATOM 2633 C GLN467 33.672 44.568 28.805 1.00 40.30 BTKB ATOM 2634 O GLN 467 34.46145.314 28.224 1.00 41.34 BTKB ATOM 2635 N ARG 468 33.591 43.255 28.6321.00 40.07 BTKB ATOM 2636 CA ARG 468 34.420 42.419 27.765 1.00 39.22BTKB ATOM 2637 CB ARG 468 35.865 42.938 27.661 1.00 38.37 BTKB ATOM 2638CG ARG 468 36.689 42.820 28.929 1.00 37.01 BTKB ATOM 2639 CD ARG 46838.159 43.070 28.635 1.00 34.26 BTKB ATOM 2640 NE ARG 468 38.710 42.10027.691 1.00 30.22 BTKB ATOM 2641 CZ ARG 468 38.997 40.835 27.989 1.0033.17 BTKB ATOM 2642 NH1 ARG 468 38.778 40.370 29.209 1.00 34.06 BTKBATOM 2643 NH2 ARG 468 39.537 40.043 27.073 1.00 32.25 BTKB ATOM 2644 CARG 468 34.370 41.078 28.502 1.00 38.55 BTKB ATOM 2645 O ARG 468 33.60240.937 29.462 1.00 40.13 BTKB ATOM 2646 N PRO 469 35.103 40.049 28.0271.00 36.71 BTKB ATOM 2647 CD PRO 469 35.916 39.864 26.809 1.00 34.66BTKB ATOM 2648 CA PRO 469 35.012 38.803 28.792 1.00 34.01 BTKB ATOM 2649CB PRO 469 36.128 37.964 28.182 1.00 32.71 BTKB ATOM 2650 CG PRO 46936.058 38.358 26.734 1.00 32.30 BTKB ATOM 2651 C PRO 469 35.277 39.13330.259 1.00 34.23 BTKB ATOM 2652 O PRO 469 36.312 39.718 30.592 1.0034.40 BTKB ATOM 2653 N ILE 470 34.279 38.884 31.101 1.00 33.52 BTKB ATOM2654 CA ILE 470 34.393 39.182 32.523 1.00 33.35 BTKB ATOM 2655 CB ILE470 33.078 38.936 33.271 1.00 31.28 BTKB ATOM 2656 CG2 ILE 470 33.26539.263 34.737 1.00 32.57 BTKB ATOM 2657 CG1 ILE 470 31.945 39.779 32.6691.00 31.65 BTKB ATOM 2658 CD ILE 470 32.076 41.265 32.915 1.00 29.56BTKB ATOM 2659 C ILE 470 35.489 38.369 33.187 1.00 34.04 BTKB ATOM 2660O ILE 470 35.424 37.145 33.247 1.00 36.53 BTKB ATOM 2661 N PHE 47136.511 39.064 33.662 1.00 33.94 BTKB ATOM 2662 CA PHE 471 37.623 38.41234.322 1.00 33.78 BTKB ATOM 2663 CB PHE 471 38.894 39.254 34.174 1.0034.34 BTKB ATOM 2664 CG PHE 471 39.606 39.058 32.865 1.00 32.47 BTKBATOM 2665 CD1 PHE 471 39.345 37.942 32.072 1.00 35.03 BTKB ATOM 2666 CD2PHE 471 40.573 39.962 32.448 1.00 29.92 BTKB ATOM 2667 CE1 PHE 47140.039 37.728 30.893 1.00 31.59 BTKB ATOM 2668 CE2 PHE 471 41.272 39.75531.270 1.00 31.32 BTKB ATOM 2669 CZ PHE 471 41.005 38.632 30.491 1.0030.64 BTKB ATOM 2670 C PHE 471 37.301 38.186 35.792 1.00 34.09 BTKB ATOM2671 O PHE 471 37.641 39.016 36.648 1.00 34.23 BTKB ATOM 2672 N ILE 47236.580 37.102 36.069 1.00 31.42 BTKB ATOM 2673 CA ILE 472 36.224 36.75437.438 1.00 25.25 BTKB ATOM 2674 CB ILE 472 34.991 35.817 37.493 1.0025.15 BTKB ATOM 2675 CG2 ILE 472 34.630 35.487 38.947 1.00 19.45 BTKBATOM 2676 CG1 ILE 472 33.795 36.493 36.816 1.00 23.77 BTKB ATOM 2677 CDILE 472 32.512 35.683 36.860 1.00 27.24 BTKB ATOM 2678 C ILE 472 37.44236.058 38.021 1.00 24.31 BTKB ATOM 2679 O ILE 472 38.127 35.307 37.3211.00 21.85 BTKB ATOM 2680 N ILE 473 37.734 36.346 39.284 1.00 24.30 BTKBATOM 2681 CA ILE 473 38.885 35.767 39.965 1.00 22.53 BTKB ATOM 2682 CBILE 473 39.907 36.880 40.353 1.00 19.77 BTKB ATOM 2683 CG2 ILE 47340.447 36.702 41.771 1.00 21.00 BTKB ATOM 2684 CG1 ILE 473 41.050 36.91639.337 1.00 19.04 BTKB ATOM 2685 CD ILE 473 40.677 37.512 38.014 1.0011.67 BTKB ATOM 2686 C ILE 473 38.478 34.914 41.168 1.00 22.23 BTKB ATOM2687 O ILE 473 37.846 35.401 42.112 1.00 18.66 BTKB ATOM 2688 N THR 47438.840 33.635 41.116 1.00 22.87 BTKB ATOM 2689 CA THR 474 38.517 32.69942.179 1.00 20.65 BTKB ATOM 2690 CB THR 474 37.578 31.586 41.668 1.0021.70 BTKB ATOM 2691 OG1 THR 474 38.161 30.959 40.521 1.00 16.76 BTKBATOM 2692 CG2 THR 474 36.211 32.158 41.296 1.00 19.49 BTKB ATOM 2693 CTHR 474 39.749 32.055 42.811 1.00 19.89 BTKB ATOM 2694 O THR 474 40.88232.284 42.379 1.00 19.24 BTKB ATOM 2695 N GLU 475 39.499 31.234 43.8261.00 17.71 BTKB ATOM 2696 CA GLU 475 40.528 30.526 44.577 1.00 18.24BTKB ATOM 2697 CB GLU 475 39.878 29.940 45.834 1.00 17.97 BTKB ATOM 2698CG GLU 475 40.814 29.304 46.846 1.00 24.32 BTKB ATOM 2699 CD GLU 47540.076 28.796 48.080 1.00 27.60 BTKB ATOM 2700 OE1 GLU 475 40.701 28.72649.160 1.00 28.93 BTKB ATOM 2701 OE2 GLU 475 38.872 28.468 47.972 1.0029.54 BTKB ATOM 2702 C GLU 475 41.199 29.425 43.742 1.00 19.31 BTKB ATOM2703 O GLU 475 40.538 28.495 43.271 1.00 21.47 BTKB ATOM 2704 N TYR 47642.508 29.548 43.537 1.00 18.96 BTKB ATOM 2705 CA TYR 476 43.253 28.55942.760 1.00 19.32 BTKB ATOM 2706 CB TYR 476 44.673 29.054 42.436 1.0018.59 BTKB ATOM 2707 CG TYR 476 45.437 28.101 41.545 1.00 16.62 BTKBATOM 2708 CD1 TYR 476 45.097 27.963 40.204 1.00 16.76 BTKB ATOM 2709 CE1TYR 476 45.703 27.000 39.396 1.00 17.33 BTKB ATOM 2710 CD2 TYR 47646.419 27.259 42.064 1.00 18.86 BTKB ATOM 2711 CE2 TYR 476 47.031 26.28641.262 1.00 20.19 BTKB ATOM 2712 CZ TYR 476 46.660 26.164 39.929 1.0018.14 BTKB ATOM 2713 OH TYR 476 47.206 25.182 39.134 1.00 15.15 BTKBATOM 2714 C TYR 476 43.329 27.242 43.524 1.00 20.78 BTKB ATOM 2715 O TYR476 43.758 27.208 44.678 1.00 21.62 BTKB ATOM 2716 N MET 477 42.92526.158 42.871 1.00 17.28 BTKB ATOM 2717 CA MET 477 42.947 24.844 43.4991.00 13.93 BTKB ATOM 2718 CB MET 477 41.552 24.232 43.458 1.00 10.54BTKB ATOM 2719 CG MET 477 40.506 25.096 44.152 1.00 13.09 BTKB ATOM 2720SD MET 477 40.797 25.261 45.909 1.00 14.13 BTKB ATOM 2721 CE MET 47739.882 23.854 46.522 1.00 10.24 BTKB ATOM 2722 C MET 477 43.960 23.95542.812 1.00 11.92 BTKB ATOM 2723 O MET 477 43.679 23.356 41.787 1.0015.97 BTKB ATOM 2724 N ALA 478 45.131 23.851 43.425 1.00 12.80 BTKB ATOM2725 CA ALA 478 46.260 23.087 42.908 1.00 11.29 BTKB ATOM 2726 CB ALA478 47.397 23.091 43.927 1.00 10.32 BTKB ATOM 2727 C ALA 478 46.04221.673 42.382 1.00 12.60 BTKB ATOM 2728 O ALA 478 46.767 21.239 41.4791.00 11.34 BTKB ATOM 2729 N ASN 479 45.075 20.946 42.934 1.00 12.61 BTKBATOM 2730 CA ASN 479 44.852 19.578 42.477 1.00 15.20 BTKB ATOM 2731 CBASN 479 44.737 18.616 43.658 1.00 13.56 BTKB ATOM 2732 CG ASN 479 46.09618.176 44.181 1.00 11.21 BTKB ATOM 2733 OD1 ASN 479 46.963 17.763 43.4181.00 11.71 BTKB ATOM 2734 ND2 ASN 479 46.284 18.265 45.484 1.00 13.16BTKB ATOM 2735 C ASN 479 43.714 19.367 41.494 1.00 14.96 BTKB ATOM 2736O ASN 479 43.370 18.230 41.181 1.00 16.66 BTKB ATOM 2737 N GLY 48043.160 20.467 40.985 1.00 16.33 BTKB ATOM 2738 CA GLY 480 42.080 20.40640.011 1.00 16.11 BTKB ATOM 2739 C GLY 480 40.744 19.930 40.535 1.0015.18 BTKB ATOM 2740 O GLY 480 40.427 20.112 41.705 1.00 16.02 BTKB ATOM2741 N CYS 481 39.954 19.318 39.660 1.00 15.40 BTKB ATOM 2742 CA CYS 48138.631 18.818 40.032 1.00 16.10 BTKB ATOM 2743 CB CYS 481 37.726 18.76738.804 1.00 17.50 BTKB ATOM 2744 SG CYS 481 38.151 17.459 37.637 1.0026.46 BTKB ATOM 2745 C CYS 481 38.663 17.440 40.706 1.00 13.33 BTKB ATOM2746 O CYS 481 39.484 16.586 40.359 1.00 9.78 BTKB ATOM 2747 N LEU 48237.716 17.218 41.620 1.00 12.03 BTKB ATOM 2748 CA LEU 482 37.581 15.96642.367 1.00 12.13 BTKB ATOM 2749 CB LEU 482 36.390 16.058 43.340 1.0012.80 BTKB ATOM 2750 CG LEU 482 36.066 14.923 44.327 1.00 10.31 BTKBATOM 2751 CD1 LEU 482 37.227 14.696 45.280 1.00 12.16 BTKB ATOM 2752 CD2LEU 482 34.792 15.233 45.114 1.00 12.14 BTKB ATOM 2753 C LEU 482 37.43914.740 41.461 1.00 10.56 BTKB ATOM 2754 O LEU 482 38.066 13.714 41.7141.00 11.00 BTKB ATOM 2755 N LEU 483 36.649 14.849 40.394 1.00 10.48 BTKBATOM 2756 CA LEU 483 36.451 13.733 39.456 1.00 9.01 BTKB ATOM 2757 CBLEU 483 35.600 14.167 38.261 1.00 4.67 BTKB ATOM 2758 CG LEU 483 34.17413.645 38.133 1.00 6.66 BTKB ATOM 2759 CD1 LEU 483 33.737 13.825 36.6911.00 7.76 BTKB ATOM 2760 CD2 LEU 483 34.097 12.179 38.517 1.00 6.83 BTKBATOM 2761 C LEU 483 37.763 13.170 38.925 1.00 13.13 BTKB ATOM 2762 O LEU483 37.927 11.957 38.815 1.00 15.11 BTKB ATOM 2763 N ASN 484 38.67914.064 38.562 1.00 15.95 BTKB ATOM 2764 CA ASN 484 39.990 13.673 38.0471.00 18.08 BTKB ATOM 2765 CB ASN 484 40.689 14.855 37.371 1.00 22.13BTKB ATOM 2766 CG ASN 484 39.864 15.473 36.265 1.00 23.79 BTKB ATOM 2767OD1 ASN 484 40.012 16.657 35.964 1.00 28.81 BTKB ATOM 2768 ND2 ASN 48438.991 14.682 35.651 1.00 29.42 BTKB ATOM 2769 C ASN 484 40.867 13.19439.184 1.00 16.80 BTKB ATOM 2770 O ASN 484 41.790 12.415 38.977 1.0016.25 BTKB ATOM 2771 N TYR 485 40.597 13.696 40.382 1.00 16.90 BTKB ATOM2772 CA TYR 485 41.368 13.317 41.552 1.00 15.39 BTKB ATOM 2773 CB TYR485 41.053 14.260 42.713 1.00 15.38 BTKB ATOM 2774 CG TYR 485 42.18214.400 43.692 1.00 10.91 BTKB ATOM 2775 CD1 TYR 485 43.446 14.782 43.2631.00 10.29 BTKB ATOM 2776 CE1 TYR 485 44.496 14.935 44.160 1.00 9.78BTKB ATOM 2777 CD2 TYR 485 41.989 14.166 45.050 1.00 13.87 BTKB ATOM2778 CE2 TYR 485 43.032 14.316 45.957 1.00 13.73 BTKB ATOM 2779 CZ TYR485 44.284 14.704 45.501 1.00 14.21 BTKB ATOM 2780 OH TYR 485 45.32214.890 46.389 1.00 20.03 BTKB ATOM 2781 C TYR 485 41.059 11.881 41.9431.00 16.45 BTKB ATOM 2782 O TYR 485 41.957 11.066 42.096 1.00 20.72 BTKBATOM 2783 N LEU 486 39.779 11.566 42.067 1.00 16.22 BTKB ATOM 2784 CALEU 486 39.349 10.228 42.445 1.00 14.56 BTKB ATOM 2785 CB LEU 486 37.82110.172 42.439 1.00 8.92 BTKB ATOM 2786 CG LEU 486 37.188 10.923 43.6111.00 9.93 BTKB ATOM 2787 CD1 LEU 486 35.698 11.154 43.365 1.00 6.93 BTKBATOM 2788 CD2 LEU 486 37.444 10.155 44.911 1.00 2.28 BTKB ATOM 2789 CLEU 486 39.935 9.123 41.561 1.00 17.58 BTKB ATOM 2790 O LEU 486 40.2878.037 42.042 1.00 17.82 BTKB ATOM 2791 N ARG 487 40.054 9.413 40.2721.00 22.23 BTKB ATOM 2792 CA ARG 487 40.589 8.457 39.313 1.00 24.99 BTKBATOM 2793 CB ARG 487 40.060 8.786 37.914 1.00 25.06 BTKB ATOM 2794 CGARG 487 38.543 8.776 37.775 1.00 25.61 BTKB ATOM 2795 CD ARG 487 37.9947.357 37.693 1.00 34.03 BTKB ATOM 2796 NE ARG 487 37.266 7.113 36.4451.00 36.39 BTKB ATOM 2797 CZ ARG 487 36.565 6.009 36.184 1.00 33.29 BTKBATOM 2798 NH1 ARG 487 36.492 5.034 37.083 1.00 31.06 BTKB ATOM 2799 NH2ARG 487 35.926 5.886 35.026 1.00 32.25 BTKB ATOM 2800 C ARG 487 42.1178.481 39.297 1.00 25.69 BTKB ATOM 2801 O ARG 487 42.738 7.695 38.5821.00 27.68 BTKB ATOM 2802 N GLU 488 42.713 9.341 40.121 1.00 29.95 BTKBATOM 2803 CA GLU 488 44.164 9.507 40.168 1.00 32.26 BTKB ATOM 2804 CBGLU 488 44.618 10.299 41.405 1.00 35.45 BTKB ATOM 2805 CG GLU 488 44.4169.609 42.751 1.00 35.63 BTKB ATOM 2806 CD GLU 488 45.086 10.359 43.9021.00 36.03 BTKB ATOM 2807 OE1 GLU 488 45.854 9.725 44.657 1.00 34.00BTKB ATOM 2808 OE2 GLU 488 44.857 11.578 44.050 1.00 30.65 BTKB ATOM2809 C GLU 488 44.967 8.234 40.046 1.00 35.02 BTKB ATOM 2810 O GLU 48844.680 7.234 40.704 1.00 36.27 BTKB ATOM 2811 N MET 489 45.975 8.30439.178 1.00 39.21 BTKB ATOM 2812 CA MET 489 46.892 7.209 38.881 1.0040.20 BTKB ATOM 2813 CB MET 489 48.243 7.779 38.437 1.00 40.38 BTKB ATOM2814 CG MET 489 48.173 9.022 37.536 1.00 41.55 BTKB ATOM 2815 SD MET 48947.548 8.779 35.843 1.00 43.59 BTKB ATOM 2816 CE MET 489 46.615 10.28335.628 1.00 40.20 BTKB ATOM 2817 C MET 489 47.087 6.305 40.101 1.0040.72 BTKB ATOM 2818 O MET 489 46.473 5.239 40.204 1.00 42.05 BTKB ATOM2819 N ARG 490 47.930 6.744 41.028 1.00 40.79 BTKB ATOM 2820 CA ARG 49048.195 5.995 42.245 1.00 37.42 BTKB ATOM 2821 CB ARG 490 49.437 6.55342.932 1.00 33.39 BTKB ATOM 2822 CG ARG 490 50.727 6.263 42.195 1.0033.75 BTKB ATOM 2823 CD ARG 490 51.220 4.849 42.479 1.00 29.04 BTKB ATOM2824 NE ARG 490 52.596 4.854 42.970 1.00 27.07 BTKB ATOM 2825 CZ ARG 49052.969 5.326 44.159 1.00 25.71 BTKB ATOM 2826 NH1 ARG 490 52.067 5.82744.996 1.00 21.84 BTKB ATOM 2827 NH2 ARG 490 54.255 5.355 44.487 1.0021.92 BTKB ATOM 2828 C ARG 490 46.983 6.127 43.156 1.00 37.49 BTKB ATOM2829 O ARG 490 46.884 7.076 43.933 1.00 33.88 BTKB ATOM 2830 N HIS 49146.063 5.172 43.047 1.00 37.72 BTKB ATOM 2831 CA HIS 491 44.826 5.16643.833 1.00 35.57 BTKB ATOM 2832 CB HIS 491 43.863 4.096 43.288 1.0034.70 BTKB ATOM 2833 CG HIS 491 43.450 4.303 41.859 1.00 34.85 BTKB ATOM2834 CD2 HIS 491 42.253 4.634 41.321 1.00 33.61 BTKB ATOM 2835 ND1 HIS491 44.312 4.133 40.797 1.00 34.49 BTKB ATOM 2836 CE1 HIS 491 43.6644.348 39.665 1.00 32.88 BTKB ATOM 2837 NE2 HIS 491 42.413 4.654 39.9561.00 33.96 BTKB ATOM 2838 C HIS 491 45.068 4.915 45.327 1.00 33.29 BTKBATOM 2839 O HIS 491 44.479 4.007 45.913 1.00 34.31 BTKB ATOM 2840 N ARG492 45.921 5.723 45.948 1.00 31.88 BTKB ATOM 2841 CA ARG 492 46.2285.561 47.362 1.00 31.93 BTKB ATOM 2842 CB ARG 492 47.566 6.224 47.6971.00 32.51 BTKB ATOM 2843 CG ARG 492 48.746 5.765 46.847 1.00 35.36 BTKBATOM 2844 CD ARG 492 50.013 6.544 47.196 1.00 33.65 BTKB ATOM 2845 NEARG 492 49.859 7.979 46.958 1.00 33.39 BTKB ATOM 2846 CZ ARG 492 50.8078.886 47.169 1.00 29.63 BTKB ATOM 2847 NH1 ARG 492 51.994 8.525 47.6261.00 22.52 BTKB ATOM 2848 NH2 ARG 492 50.559 10.163 46.941 1.00 28.36BTKB ATOM 2849 C ARG 492 45.123 6.221 48.165 1.00 33.93 BTKB ATOM 2850 OARG 492 45.323 7.295 48.730 1.00 36.87 BTKB ATOM 2851 N PHE 493 43.9535.591 48.201 1.00 32.16 BTKB ATOM 2852 CA PHE 493 42.824 6.148 48.9321.00 30.58 BTKB ATOM 2853 CB PHE 493 41.708 6.587 47.974 1.00 28.91 BTKBATOM 2854 CG PHE 493 41.862 7.993 47.466 1.00 22.07 BTKB ATOM 2855 CD1PHE 493 42.001 8.247 46.110 1.00 23.04 BTKB ATOM 2856 CD2 PHE 493 41.8809.062 48.352 1.00 20.91 BTKB ATOM 2857 CE1 PHE 493 42.159 9.549 45.6421.00 21.21 BTKB ATOM 2858 CE2 PHE 493 42.037 10.361 47.898 1.00 18.07BTKB ATOM 2859 CZ PHE 493 42.178 10.606 46.536 1.00 23.31 BTKB ATOM 2860C PHE 493 42.256 5.207 49.976 1.00 30.49 BTKB ATOM 2861 O PHE 493 41.8584.079 49.676 1.00 30.95 BTKB ATOM 2862 N GLN 494 42.240 5.679 51.2131.00 29.40 BTKB ATOM 2863 CA GLN 494 41.702 4.907 52.320 1.00 28.93 BTKBATOM 2864 CB GLN 494 42.640 4.985 53.529 1.00 31.31 BTKB ATOM 2865 CGGLN 494 44.047 4.427 53.298 1.00 35.24 BTKB ATOM 2866 CD GLN 494 45.0415.495 52.888 1.00 36.73 BTKB ATOM 2867 OE1 GLN 494 44.778 6.289 51.9841.00 36.12 BTKB ATOM 2868 NE2 GLN 494 46.184 5.529 53.559 1.00 34.99BTKB ATOM 2869 C GLN 494 40.337 5.499 52.660 1.00 26.79 BTKB ATOM 2870 OGLN 494 40.132 6.707 52.516 1.00 30.22 BTKB ATOM 2871 N THR 495 39.4054.660 53.104 1.00 24.49 BTKB ATOM 2872 CA THR 495 38.059 5.107 53.4531.00 18.71 BTKB ATOM 2873 CB THR 495 37.261 3.983 54.136 1.00 15.78 BTKBATOM 2874 OG1 THR 495 37.282 2.823 53.302 1.00 17.79 BTKB ATOM 2875 CG2THR 495 35.814 4.405 54.359 1.00 12.00 BTKB ATOM 2876 C THR 495 38.0836.320 54.372 1.00 19.04 BTKB ATOM 2877 O THR 495 37.209 7.182 54.2991.00 19.97 BTKB ATOM 2878 N GLN 496 39.112 6.393 55.207 1.00 20.71 BTKBATOM 2879 CA GLN 496 39.285 7.488 56.156 1.00 20.37 BTKB ATOM 2880 CBGLN 496 40.605 7.320 56.930 1.00 24.38 BTKB ATOM 2881 CG GLN 496 40.6866.083 57.852 1.00 31.81 BTKB ATOM 2882 CD GLN 496 40.842 4.747 57.1071.00 35.85 BTKB ATOM 2883 OE1 GLN 496 41.121 4.714 55.909 1.00 33.78BTKB ATOM 2884 NE2 GLN 496 40.660 3.643 57.825 1.00 34.70 BTKB ATOM 2885C GLN 496 39.282 8.825 55.419 1.00 18.15 BTKB ATOM 2886 O GLN 496 38.5199.725 55.748 1.00 18.72 BTKB ATOM 2887 N GLN 497 40.114 8.935 54.3931.00 18.73 BTKB ATOM 2888 CA GLN 497 40.205 10.162 53.615 1.00 14.92BTKB ATOM 2889 CB GLN 497 41.534 10.196 52.862 1.00 21.68 BTKB ATOM 2890CG CLN 497 41.752 11.477 52.090 1.00 25.81 BTKB ATOM 2891 CD GLN 49741.416 12.694 52.912 1.00 25.45 BTKB ATOM 2892 OE1 GLN 497 41.984 12.91153.985 1.00 30.13 BTKB ATOM 2893 NE2 GLN 497 40.462 13.480 52.434 1.0022.53 BTKB ATOM 2894 C GLN 497 39.031 10.315 52.647 1.00 11.54 BTKB ATOM2895 O GLN 497 38.656 11.425 52.272 1.00 10.10 BTKB ATOM 2896 N LEU 49838.463 9.189 52.240 1.00 9.12 BTKB ATOM 2897 CA LEU 498 37.327 9.17351.336 1.00 8.57 BTKB ATOM 2898 CB LEU 498 36.961 7.721 51.021 1.0011.37 BTKB ATOM 2899 CG LEU 498 36.951 7.223 49.575 1.00 9.98 BTKB ATOM2900 CD1 LEU 498 38.079 7.838 48.767 1.00 8.19 BTKB ATOM 2901 CD2 LEU498 37.050 5.711 49.570 1.00 7.91 BTKB ATOM 2902 C LEU 498 36.167 9.86852.043 1.00 10.48 BTKB ATOM 2903 O LEU 498 35.469 10.702 51.458 1.0011.51 BTKB ATOM 2904 N LEU 499 36.016 9.569 53.331 1.00 12.46 BTKB ATOM2905 CA LEU 499 34.949 10.146 54.133 1.00 10.83 BTKB ATOM 2906 CB LEU499 34.815 9.375 55.454 1.00 12.04 BTKB ATOM 2907 CG LEU 499 33.4749.303 56.205 1.00 8.53 BTKB ATOM 2908 CD1 LEU 499 33.416 10.349 57.2801.00 8.11 BTKB ATOM 2909 CD2 LEU 499 32.286 9.415 55.263 1.00 5.87 BTKBATOM 2910 C LEU 499 35.229 11.622 54.365 1.00 7.37 BTKB ATOM 2911 O LEU499 34.327 12.449 54.275 1.00 10.84 BTKB ATOM 2912 N GLU 500 36.49111.960 54.607 1.00 8.33 BTKB ATOM 2913 CA GLU 500 36.878 13.353 54.8211.00 10.19 BTKB ATOM 2914 CB GLU 500 38.407 13.498 54.933 1.00 11.71BTKB ATOM 2915 CG GLU 500 38.988 13.251 56.326 1.00 15.65 BTKB ATOM 2916CD GLU 500 38.574 14.307 57.342 1.00 16.85 BTKB ATOM 2917 OE1 GLU 50038.534 13.992 58.550 1.00 17.26 BTKB ATOM 2918 OE2 GLU 500 38.290 15.45456.940 1.00 21.13 BTKB ATOM 2919 C GLU 500 36.377 14.220 53.679 1.0010.00 BTKB ATOM 2920 O GLU 500 35.914 15.328 53.898 1.00 12.10 BTKB ATOM2921 N MET 501 36.453 13.701 52.459 1.00 12.06 BTKB ATOM 2922 CA MET 50136.009 14.434 51.284 1.00 11.31 BTKB ATOM 2923 CB MET 501 36.314 13.63750.015 1.00 10.59 BTKB ATOM 2924 CG MET 501 37.792 13.351 49.803 1.0011.63 BTKB ATOM 2925 SD MET 501 38.095 12.353 48.335 1.00 16.64 BTKBATOM 2926 CE MET 501 39.512 13.180 47.631 1.00 19.96 BTKB ATOM 2927 CMET 501 34.522 14.720 51.400 1.00 11.74 BTKB ATOM 2928 O MET 501 34.09815.865 51.257 1.00 12.06 BTKB ATOM 2929 N CYS 502 33.740 13.685 51.7071.00 11.26 BTKB ATOM 2930 CA CYS 502 32.290 13.818 51.879 1.00 10.20BTKB ATOM 2931 CB CYS 502 31.673 12.473 52.290 1.00 12.20 BTKB ATOM 2932SG CYS 502 31.964 11.065 51.174 1.00 14.20 BTKB ATOM 2933 C CYS 50231.986 14.848 52.976 1.00 9.69 BTKB ATOM 2934 O CYS 502 30.976 15.54952.923 1.00 7.12 BTKB ATOM 2935 N LYS 503 32.872 14.924 53.967 1.0011.41 BTKB ATOM 2936 CA LYS 503 32.735 15.838 55.095 1.00 7.79 BTKB ATOM2937 CB LYS 503 33.700 15.431 56.217 1.00 4.87 BTKB ATOM 2938 CG LYS 50333.559 16.217 57.519 1.00 7.28 BTKB ATOM 2939 CD LYS 503 34.929 16.66958.024 1.00 12.59 BTKB ATOM 2940 CE LYS 503 34.879 17.121 59.483 1.0012.64 BTKB ATOM 2941 NZ LYS 503 36.120 17.842 59.917 1.00 16.35 BTKBATOM 2942 C LYS 503 32.993 17.280 54.656 1.00 7.32 BTKB ATOM 2943 O LYS503 32.235 18.185 54.997 1.00 9.67 BTKB ATOM 2944 N ASP 504 34.05117.484 53.883 1.00 4.47 BTKB ATOM 2945 CA ASP 504 34.401 18.801 53.3871.00 2.00 BTKB ATOM 2946 CB ASP 504 35.649 18.712 52.505 1.00 5.96 BTKBATOM 2947 CG ASP 504 36.876 18.212 53.253 1.00 5.96 BTKB ATOM 2948 OD1ASP 504 36.861 18.172 54.500 1.00 6.58 BTKB ATOM 2949 OD2 ASP 504 37.86317.856 52.580 1.00 11.77 BTKB ATOM 2950 C ASP 504 33.244 19.350 52.5661.00 6.17 BTKB ATOM 2951 O ASP 504 32.857 20.512 52.723 1.00 4.62 BTKBATOM 2952 N VAL 505 32.680 18.499 51.705 1.00 8.12 BTKB ATOM 2953 CA VAL505 31.560 18.880 50.841 1.00 5.94 BTKB ATOM 2954 CB VAL 505 31.24117.800 49.763 1.00 2.00 BTKB ATOM 2955 CG1 VAL 505 30.116 18.283 48.8671.00 3.28 BTKB ATOM 2956 CG2 VAL 505 32.466 17.495 48.918 1.00 5.68 BTKBATOM 2957 C VAL 505 30.294 19.109 51.652 1.00 7.08 BTKB ATOM 2958 O VAL505 29.560 20.069 51.415 1.00 9.90 BTKB ATOM 2959 N CYS 506 30.05018.235 52.622 1.00 8.09 BTKB ATOM 2960 CA CYS 506 28.861 18.336 53.4441.00 8.75 BTKB ATOM 2961 CB CYS 506 28.728 17.112 54.355 1.00 7.47 BTKBATOM 2962 SG CYS 506 27.033 16.791 54.882 1.00 8.97 BTKB ATOM 2963 C CYS506 28.856 19.621 54.257 1.00 8.23 BTKB ATOM 2964 O CYS 506 27.82220.272 54.378 1.00 10.16 BTKB ATOM 2965 N GLU 507 30.010 20.000 54.7961.00 8.06 BTKB ATOM 2966 CA GLU 507 30.112 21.226 55.588 1.00 8.72 BTKBATOM 2967 CB GLU 507 31.532 21.409 56.118 1.00 5.94 BTKB ATOM 2968 CGGLU 507 31.986 20.276 57.018 1.00 8.44 BTKB ATOM 2969 CD GLU 507 33.36020.479 57.612 1.00 5.09 BTKB ATOM 2970 OE1 GLU 507 34.090 21.392 57.1971.00 12.55 BTKB ATOM 2971 OE2 GLU 507 33.714 19.708 58.514 1.00 12.74BTKB ATOM 2972 C GLU 507 29.727 22.422 54.730 1.00 9.87 BTKB ATOM 2973 OGLU 507 28.948 23.286 55.152 1.00 14.35 BTKB ATOM 2974 N ALA 508 30.27222.460 53.518 1.00 10.59 BTKB ATOM 2975 CA ALA 508 30.001 23.530 52.5681.00 10.69 BTKB ATOM 2976 CB ALA 508 30.859 23.337 51.343 1.00 11.50BTKB ATOM 2977 C ALA 508 28.521 23.542 52.183 1.00 10.30 BTKB ATOM 2978O ALA 508 27.885 24.597 52.110 1.00 7.78 BTKB ATOM 2979 N MET 509 27.98322.355 51.929 1.00 11.26 BTKB ATOM 2980 CA MET 509 26.582 22.212 51.5561.00 13.26 BTKB ATOM 2981 CB MET 509 26.301 20.796 51.053 1.00 12.49BTKB ATOM 2982 CG MET 509 26.833 20.504 49.671 1.00 9.20 BTKB ATOM 2983SD MET 509 26.595 21.913 48.607 1.00 9.16 BTKB ATOM 2984 CE MET 50924.812 21.976 48.456 1.00 5.81 BTKB ATOM 2985 C MET 509 25.679 22.51452.738 1.00 17.44 BTKB ATOM 2986 O MET 509 24.539 22.961 52.570 1.0019.95 BTKB ATOM 2987 N GLU 510 26.198 22.251 53.932 1.00 18.37 BTKB ATOM2988 CA GLU 510 25.467 22.479 55.159 1.00 17.75 BTKB ATOM 2989 CB GLU510 26.217 21.858 56.336 1.00 21.22 BTKB ATOM 2990 CG GLU 510 25.37021.629 57.572 1.00 19.10 BTKB ATOM 2991 CD GLU 510 25.692 22.587 58.6871.00 21.96 BTKB ATOM 2992 OE1 GLU 510 26.774 22.452 59.296 1.00 20.26BTKB ATOM 2993 OE2 GLU 510 24.859 23.472 58.958 1.00 24.99 BTKB ATOM2994 C GLU 510 25.293 23.981 55.335 1.00 19.15 BTKB ATOM 2995 O GLU 51024.178 24.446 55.579 1.00 21.52 BTKB ATOM 2996 N TYR 511 26.368 24.75155.169 1.00 19.18 BTKB ATOM 2997 CA TYR 511 26.251 26.204 55.299 1.0022.64 BTKB ATOM 2998 CB TYR 511 27.612 26.885 55.456 1.00 28.60 BTKBATOM 2999 CG TYR 511 27.764 27.549 56.815 1.00 38.15 BTKB ATOM 3000 CD1TYR 511 27.179 26.988 57.958 1.00 38.05 BTKB ATOM 3001 CE1 TYR 51127.291 27.597 59.199 1.00 39.84 BTKB ATOM 3002 CD2 TYR 511 28.469 28.74556.958 1.00 37.94 BTKB ATOM 3003 CE2 TYR 511 28.589 29.365 58.206 1.0038.73 BTKB ATOM 3004 CZ TYR 511 27.995 28.786 59.319 1.00 40.24 BTKBATOM 3005 OH TYR 511 28.100 29.397 60.550 1.00 37.79 BTKB ATOM 3006 CTYR 511 25.441 26.838 54.168 1.00 20.77 BTKB ATOM 3007 O TYR 511 24.82427.881 54.353 1.00 19.57 BTKB ATOM 3008 N LEU 512 25.460 26.223 52.9911.00 21.25 BTKB ATOM 3009 CA LEU 512 24.662 26.734 51.885 1.00 18.82BTKB ATOM 3010 CB LEU 512 24.985 26.022 50.569 1.00 17.08 BTKB ATOM 3011CG LEU 512 26.256 26.418 49.811 1.00 16.90 BTKB ATOM 3012 CD1 LEU 51226.165 25.864 48.375 1.00 10.52 BTKB ATOM 3013 CD2 LEU 512 26.414 27.93749.783 1.00 10.86 BTKB ATOM 3014 C LEU 512 23.217 26.473 52.271 1.0019.11 BTKB ATOM 3015 O LEU 512 22.354 27.328 52.097 1.00 23.50 BTKB ATOM3016 N GLU 513 22.972 25.306 52.851 1.00 19.26 BTKB ATOM 3017 CA GLU 51321.640 24.930 53.283 1.00 18.74 BTKB ATOM 3018 CE GLU 513 21.665 23.55453.944 1.00 16.46 BTKB ATOM 3019 CG GLU 513 20.296 23.079 54.393 1.0018.68 BTKB ATOM 3020 CD GLU 513 20.327 21.695 55.003 1.00 17.60 BTKBATOM 3021 OE1 GLU 513 19.879 20.746 54.322 1.00 17.80 BTKB ATOM 3022 OE2GLU 513 20.792 21.561 56.159 1.00 12.10 BTKB ATOM 3023 C GLU 513 21.12325.962 54.269 1.00 22.83 BTKB ATOM 3024 O GLU 513 20.033 26.514 54.0791.00 26.96 BTKB ATOM 3025 N SER 514 21.924 26.241 55.300 1.00 24.79 BTKBATOM 3026 CA SER 514 21.573 27.212 56.338 1.00 24.05 BTKB ATOM 3027 CBSER 514 22.693 27.314 57.376 1.00 23.79 BTKB ATOM 3028 OG SER 514 23.88627.829 56.799 1.00 22.03 BTKB ATOM 3029 C SER 514 21.325 28.589 55.7331.00 22.16 BTKB ATOM 3030 O SER 514 20.357 29.263 56.080 1.00 21.49 BTKBATOM 3031 N LYS 515 22.195 28.974 54.805 1.00 21.78 BTKB ATOM 3032 CALYS 515 22.128 30.263 54.122 1.00 19.84 BTKB ATOM 3033 CB LYS 515 23.52230.574 53.541 1.00 15.28 BTKB ATOM 3034 CG LYS 515 23.593 31.460 52.3081.00 22.32 BTKB ATOM 3035 CD LYS 515 23.373 32.930 52.616 1.00 20.90BTKB ATOM 3036 CE LYS 515 23.192 33.703 51.322 1.00 15.11 BTKB ATOM 3037NZ LYS 515 22.035 33.175 50.535 1.00 9.55 BTKB ATOM 3038 C LYS 51521.008 30.302 53.072 1.00 20.47 BTKB ATOM 3039 O LYS 515 20.769 31.32552.433 1.00 22.75 BTKB ATOM 3040 N GLN 516 20.267 29.206 52.956 1.0019.94 BTKB ATOM 3041 CA GLN 516 19.165 29.111 52.000 1.00 19.73 BTKBATOM 3042 CB GLN 516 18.085 30.162 52.314 1.00 23.43 BTKB ATOM 3043 CGGLN 516 17.672 30.281 53.783 1.00 22.95 BTKB ATOM 3044 CD GLN 516 16.91929.073 54.296 1.00 30.24 BTKB ATOM 3045 OE1 GLN 516 15.719 28.929 54.0631.00 32.30 BTKB ATOM 3046 NE2 GLN 516 17.612 28.212 55.026 1.00 32.64BTKB ATOM 3047 C GLN 516 19.658 29.287 50.554 1.00 17.78 BTKB ATOM 3048O GLN 516 19.000 29.935 49.733 1.00 15.79 BTKB ATOM 3049 N PHE 51720.788 28.669 50.231 1.00 13.90 BTKB ATOM 3050 CA PHE 517 21.353 28.77348.891 1.00 16.72 BTKB ATOM 3051 CB PHE 517 22.719 29.453 48.963 1.0013.45 BTKB ATOM 3052 CG PHE 517 23.245 29.919 47.628 1.00 13.82 BTKBATOM 3053 CD1 PHE 517 23.067 31.246 47.220 1.00 11.73 BTKB ATOM 3054 CD2PHE 517 23.957 29.049 46.800 1.00 12.17 BTKB ATOM 3055 CE1 PHE 51723.596 31.699 46.002 1.00 11.02 BTKB ATOM 3056 CE2 PHE 517 24.491 29.48645.584 1.00 9.71 BTKB ATOM 3057 CZ PHE 517 24.312 30.815 45.183 1.0013.73 BTKB ATOM 3058 C PHE 517 21.477 27.412 48.197 1.00 17.18 BTKB ATOM3059 O PHE 517 22.222 26.540 48.658 1.00 20.28 BTKB ATOM 3060 N LEU 51820.749 27.242 47.093 1.00 15.31 BTKB ATOM 3061 CA LEU 518 20.766 26.00346.312 1.00 13.37 BTKB ATOM 3062 CB LEU 518 19.474 25.864 45.508 1.0010.07 BTKB ATOM 3063 CG LEU 518 18.227 25.283 46.168 1.00 12.29 BTKBATOM 3064 CD1 LEU 518 17.018 25.488 45.274 1.00 9.13 BTKB ATOM 3065 CD2LEU 518 18.455 23.817 46.434 1.00 14.04 BTKB ATOM 3066 C LEU 518 21.93625.979 45.334 1.00 13.97 BTKB ATOM 3067 O LEU 518 22.236 26.979 44.6921.00 19.55 BTKB ATOM 3068 N HIS 519 22.557 24.820 45.165 1.00 13.91 BTKBATOM 3069 CA HIS 519 23.684 24.700 44.250 1.00 15.81 BTKB ATOM 3070 CBHIS 519 24.659 23.631 44.743 1.00 12.29 BTKB ATOM 3071 CG HIS 519 26.00823.706 44.101 1.00 9.16 BTKB ATOM 3072 CD2 HIS 519 27.239 23.881 44.6371.00 9.86 BTKB ATOM 3073 ND1 HIS 519 26.198 23.578 42.741 1.00 7.69 BTKBATOM 3074 CE1 HIS 519 27.489 23.664 42.468 1.00 8.06 BTKB ATOM 3075 NE2HIS 519 28.142 23.850 43.602 1.00 9.01 BTKB ATOM 3076 C HIS 519 23.25624.396 42.811 1.00 18.77 BTKB ATOM 3077 O HIS 519 23.987 24.714 41.8771.00 19.63 BTKB ATOM 3078 N ARG 520 22.116 23.724 42.645 1.00 21.67 BTKBATOM 3079 CA ARG 520 21.572 23.372 41.329 1.00 21.63 BTKB ATOM 3080 CBARG 520 21.501 24.620 40.438 1.00 21.69 BTKB ATOM 3081 CG ARG 520 20.86524.389 39.081 1.00 24.47 BTKB ATOM 3082 CD ARG 520 21.521 25.238 38.0011.00 26.51 BTKB ATOM 3083 NE ARG 520 21.186 26.658 38.074 1.00 33.49BTKB ATOM 3084 CZ ARG 520 20.034 27.185 37.667 1.00 32.52 BTKB ATOM 3085NH1 ARG 520 19.078 26.412 37.169 1.00 35.39 BTKB ATOM 3086 NH2 ARG 52019.870 28.502 37.675 1.00 36.18 BTKB ATOM 3087 C ARG 520 22.295 22.23240.582 1.00 23.98 BTKB ATOM 3088 O ARG 520 21.646 21.366 39.987 1.0023.54 BTKB ATOM 3089 N ASP 521 23.625 22.221 40.629 1.00 21.56 BTKB ATOM3090 CA ASP 521 24.423 21.210 39.935 1.00 19.42 BTKB ATOM 3091 CB ASP521 25.033 21.861 38.676 1.00 20.57 BTKB ATOM 3092 CG ASP 521 25.30920.867 37.552 1.00 18.16 BTKB ATOM 3093 OD1 ASP 521 26.470 20.777 37.0991.00 19.83 BTKB ATOM 3094 OD2 ASP 521 24.359 20.205 37.092 1.00 21.97BTKB ATOM 3095 C ASP 521 25.533 20.709 40.872 1.00 17.08 BTKB ATOM 3096O ASP 521 26.655 21.199 40.830 1.00 19.34 BTKB ATOM 3097 N LEU 52225.206 19.781 41.763 1.00 14.72 BTKB ATOM 3098 CA LEU 522 26.197 19.25242.704 1.00 12.04 BTKB ATOM 3099 CB LEU 522 25.612 19.164 44.117 1.0015.80 BTKB ATOM 3100 CG LEU 522 26.527 18.661 45.235 1.00 15.39 BTKBATOM 3101 CD1 LEU 522 27.670 19.639 45.486 1.00 14.85 BTKB ATOM 3102 CD2LEU 522 25.709 18.455 46.490 1.00 14.89 BTKB ATOM 3103 C LEU 522 26.72417.892 42.249 1.00 11.47 BTKB ATOM 3104 O LEU 522 25.991 16.902 42.2001.00 8.58 BTKB ATOM 3105 N ALA 523 28.015 17.851 41.949 1.00 9.69 BTKBATOM 3106 CA ALA 523 28.650 16.637 41.467 1.00 7.49 BTKB ATOM 3107 CBALA 523 28.332 16.457 39.968 1.00 8.23 BTKB ATOM 3108 C ALA 523 30.15016.780 41.677 1.00 3.64 BTKB ATOM 3109 O ALA 523 30.643 17.892 41.8581.00 5.50 BTKB ATOM 3110 N ALA 524 30.880 15.671 41.609 1.00 2.00 BTKBATOM 3111 CA ALA 524 32.328 15.695 41.804 1.00 3.96 BTKB ATOM 3112 CBALA 524 32.890 14.289 41.820 1.00 2.49 BTKB ATOM 3113 C ALA 524 33.04016.533 40.753 1.00 3.94 BTKB ATOM 3114 O ALA 524 34.159 16.994 40.9741.00 2.00 BTKB ATOM 3115 N ARG 525 32.409 16.696 39.596 1.00 6.91 BTKBATOM 3116 CA ARG 525 32.979 17.497 38.515 1.00 11.27 BTKB ATOM 3117 CBARG 525 32.152 17.328 37.246 1.00 13.87 BTKB ATOM 3118 CG ARG 525 30.74117.870 37.362 1.00 18.97 BTKB ATOM 3119 CD ARG 525 30.214 18.263 35.9971.00 23.23 BTKB ATOM 3120 NE ARG 525 31.138 19.182 35.332 1.00 29.34BTKB ATOM 3121 CZ ARG 525 30.855 20.439 35.010 1.00 30.92 BTKB ATOM 3122NH1 ARG 525 29.662 20.956 35.283 1.00 31.96 BTKB ATOM 3123 NH2 ARG 52531.773 21.183 34.412 1.00 28.24 BTKB ATOM 3124 C ARG 525 33.002 18.98338.891 1.00 11.79 BTKB ATOM 3125 O ARG 525 33.802 19.760 38.376 1.0011.27 BTKB ATOM 3126 N ASN 526 32.099 19.364 39.785 1.00 11.62 BTKB ATOM3127 CA ASN 526 31.982 20.734 40.250 1.00 8.74 BTKB ATOM 3128 CB ASN 52630.504 21.093 40.372 1.00 6.93 BTKB ATOM 3129 CG ASN 526 29.781 21.00339.047 1.00 8.76 BTKB ATOM 3130 OD1 ASN 526 28.796 20.275 38.909 1.0013.72 BTKB ATOM 3131 ND2 ASN 526 30.283 21.725 38.051 1.00 11.51 BTKBATOM 3132 C ASN 526 32.698 20.956 41.585 1.00 5.24 BTKB ATOM 3133 O ASN526 32.471 21.956 42.255 1.00 4.05 BTKB ATOM 3134 N CYS 527 33.54920.013 41.977 1.00 7.78 BTKB ATOM 3135 CA CYS 527 34.302 20.128 43.2181.00 9.39 BTKB ATOM 3136 CB CYS 527 34.046 18.934 44.147 1.00 8.89 BTKBATOM 3137 SG CYS 527 32.439 18.919 44.970 1.00 9.13 BTKB ATOM 3138 C CYS527 35.777 20.186 42.865 1.00 6.94 BTKB ATOM 3139 O CYS 527 36.22519.505 41.942 1.00 9.40 BTKB ATOM 3140 N LEU 528 36.520 21.006 43.6001.00 10.86 BTKB ATOM 3141 CA LEU 528 37.953 21.176 43.376 1.00 12.73BTKB ATOM 3142 CB LEU 528 38.276 22.646 43.097 1.00 12.37 BTKB ATOM 3143CG LEU 528 37.598 23.307 41.892 1.00 12.90 BTKB ATOM 3144 CD1 LEU 52837.402 24.781 42.185 1.00 19.16 BTKB ATOM 3145 CD2 LEU 528 38.419 23.09940.614 1.00 17.35 BTKB ATOM 3146 C LEU 528 38.734 20.710 44.591 1.0012.40 BTKB ATOM 3147 O LEU 528 38.197 20.638 45.696 1.00 14.00 BTKB ATOM3148 N VAL 529 40.009 20.405 44.381 1.00 13.66 BTKB ATOM 3149 CA VAL 52940.884 19.939 45.446 1.00 16.38 BTKB ATOM 3150 CB VAL 529 41.324 18.47745.205 1.00 13.16 BTKB ATOM 3151 CG1 VAL 529 42.156 17.971 46.387 1.007.91 BTKB ATOM 3152 CG2 VAL 529 40.105 17.586 44.943 1.00 15.41 BTKBATOM 3153 C VAL 529 42.122 20.820 45.442 1.00 17.99 BTKB ATOM 3154 O VAL529 42.673 21.120 44.381 1.00 19.19 BTKB ATOM 3155 N ASN 530 42.54921.276 46.612 1.00 18.86 BTKB ATOM 3156 CA ASN 530 43.741 22.109 46.6531.00 18.14 BTKB ATOM 3157 CB ASN 530 43.551 23.328 47.570 1.00 17.83BTKB ATOM 3158 CG ASN 530 43.511 22.976 49.043 1.00 13.97 BTKB ATOM 3159OD1 ASN 530 43.831 21.862 49.446 1.00 14.33 BTKB ATOM 3160 ND2 ASN 53043.137 23.946 49.860 1.00 11.50 BTKB ATOM 3161 C ASN 530 44.977 21.29447.024 1.00 17.68 BTKB ATOM 3162 O ASN 530 44.895 20.080 47.213 1.0018.38 BTKB ATOM 3163 N ASP 531 46.119 21.964 47.104 1.00 20.29 BTKB ATOM3164 CA ASP 531 47.392 21.329 47.433 1.00 24.52 BTKB ATOM 3165 CB ASP531 48.498 22.388 47.520 1.00 26.76 BTKB ATOM 3166 CG ASP 531 47.95623.787 47.753 1.00 26.59 BTKB ATOM 3167 OD1 ASP 531 47.289 24.012 48.7881.00 26.97 BTKB ATOM 3168 OD2 ASP 531 48.180 24.652 46.879 1.00 28.82BTKB ATOM 3169 C ASP 531 47.412 20.465 48.693 1.00 24.27 BTKB ATOM 3170O ASP 531 48.269 19.596 48.838 1.00 28.06 BTKB ATOM 3171 N GLN 53246.471 20.699 49.597 1.00 25.23 BTKB ATOM 3172 CA GLN 532 46.406 19.95150.846 1.00 23.53 BTKB ATOM 3173 CB GLN 532 45.856 20.846 51.953 1.0025.74 BTKB ATOM 3174 CG GLN 532 46.669 20.828 53.233 1.00 28.15 BTKBATOM 3175 CD GLN 532 47.984 21.563 53.089 1.00 28.65 BTKB ATOM 3176 OE1GLN 532 48.062 22.769 53.342 1.00 29.05 BTKB ATOM 3177 NE2 GLN 53249.027 20.846 52.679 1.00 30.50 BTKB ATOM 3178 C GLN 532 45.556 18.68650.772 1.00 22.38 BTKB ATOM 3179 O GLN 532 45.635 17.837 51.659 1.0024.02 BTKB ATOM 3180 N GLY 533 44.751 18.557 49.722 1.00 18.67 BTKB ATOM3181 CA GLY 533 43.877 17.402 49.601 1.00 13.49 BTKB ATOM 3182 C GLY 53342.471 17.764 50.054 1.00 12.87 BTKB ATOM 3183 O GLY 533 41.574 16.91550.094 1.00 13.75 BTKB ATOM 3184 N VAL 534 42.282 19.034 50.412 1.0010.21 BTKB ATOM 3185 CA VAL 534 40.987 19.536 50.852 1.00 9.08 BTKB ATOM3186 CB VAL 534 41.117 20.895 51.588 1.00 8.03 BTKB ATOM 3187 CG1 VAL534 39.739 21.465 51.918 1.00 9.23 BTKB ATOM 3188 CG2 VAL 534 41.92320.731 52.872 1.00 6.92 BTKB ATOM 3189 C VAL 534 40.062 19.712 49.6551.00 8.68 BTKB ATOM 3190 O VAL 534 40.432 20.320 48.646 1.00 11.10 BTKBATOM 3191 N VAL 535 38.860 19.158 49.777 1.00 10.57 BTKB ATOM 3192 CAVAL 535 37.848 19.239 48.732 1.00 9.29 BTKB ATOM 3193 CB VAL 535 37.05817.918 48.622 1.00 8.60 BTKB ATOM 3194 CG1 VAL 535 36.015 18.001 47.5221.00 8.21 BTKB ATOM 3195 CG2 VAL 535 38.002 16.776 48.351 1.00 4.73 BTKBATOM 3196 C VAL 535 36.900 20.385 49.071 1.00 9.08 BTKB ATOM 3197 O VAL535 36.415 20.493 50.200 1.00 9.32 BTKB ATOM 3198 N LYS 536 36.70921.281 48.109 1.00 10.56 BTKB ATOM 3199 CA LYS 536 35.829 22.432 48.2791.00 6.61 BTKB ATOM 3200 CB LYS 536 36.640 23.722 48.326 1.00 5.90 BTKBATOM 3201 CG LYS 536 37.657 23.823 49.437 1.00 5.31 BTKB ATOM 3202 CDLYS 536 38.204 25.241 49.517 1.00 6.28 BTKB ATOM 3203 CE LYS 536 39.25725.356 50.607 1.00 7.99 BTKB ATOM 3204 NZ LYS 536 39.577 26.769 50.8981.00 2.74 BTKB ATOM 3205 C LYS 536 34.878 22.511 47.092 1.00 5.48 BTKBATOM 3206 O LYS 536 35.288 22.309 45.942 1.00 3.48 BTKB ATOM 3207 N VAL537 33.615 22.818 47.367 1.00 7.47 BTKB ATOM 3208 CA VAL 537 32.61922.927 46.314 1.00 8.81 BTKB ATOM 3209 CB VAL 537 31.188 22.635 46.8351.00 8.72 BTKB ATOM 3210 CG1 VAL 537 30.952 23.324 48.142 1.00 11.64BTKB ATOM 3211 CG2 VAL 537 30.137 23.054 45.813 1.00 8.15 BTKB ATOM 3212C VAL 537 32.700 24.273 45.616 1.00 9.66 BTKB ATOM 3213 O VAL 537 32.94725.305 46.243 1.00 8.25 BTKB ATOM 3214 N SER 538 32.524 24.233 44.3021.00 15.29 BTKB ATOM 3215 CA SER 538 32.588 25.410 43.456 1.00 20.41BTKB ATOM 3216 CB SER 538 33.965 25.468 42.779 1.00 25.58 BTKB ATOM 3217OG SER 538 34.210 26.711 42.133 1.00 28.06 BTKB ATOM 3218 C SER 53831.478 25.310 42.407 1.00 20.96 BTKB ATOM 3219 O SER 538 30.516 24.55542.573 1.00 20.92 BTKB ATOM 3220 N ASP 539 31.613 26.075 41.330 1.0021.84 BTKB ATOM 3221 CA ASP 539 30.625 26.092 40.255 1.00 26.29 BTKBATOM 3222 CB ASP 539 30.569 24.750 39.531 1.00 29.26 BTKB ATOM 3223 CGASP 539 31.510 24.691 38.352 1.00 32.89 BTKB ATOM 3224 OD1 ASP 53931.014 24.523 37.217 1.00 32.96 BTKB ATOM 3225 OD2 ASP 539 32.738 24.82038.556 1.00 31.54 BTKB ATOM 3226 C ASP 539 29.236 26.497 40.719 1.0025.45 BTKB ATOM 3227 O ASP 539 28.232 26.073 40.142 1.00 28.05 BTKB ATOM3228 N PHE 540 29.187 27.276 41.793 1.00 23.51 BTKB ATOM 3229 CA PHE 54027.931 27.777 42.318 1.00 22.85 BTKB ATOM 3230 CB PHE 540 27.860 27.61243.846 1.00 17.06 BTKB ATOM 3231 CG PHE 540 28.988 28.269 44.586 1.0014.42 BTKB ATOM 3232 CD1 PHE 540 30.168 27.581 44.822 1.00 16.97 BTKBATOM 3233 CD2 PHE 540 28.878 29.583 45.030 1.00 16.54 BTKB ATOM 3234 CE1PHE 540 31.227 28.190 45.487 1.00 16.68 BTKB ATOM 3235 CE2 PHE 54029.928 30.197 45.694 1.00 17.48 BTKB ATOM 3236 CZ PHE 540 31.107 29.49845.922 1.00 15.86 BTKB ATOM 3237 C PHE 540 27.912 29.244 41.902 1.0024.94 BTKB ATOM 3238 O PHE 540 28.964 29.811 41.600 1.00 26.86 BTKB ATOM3239 N GLY 541 26.733 29.849 41.844 1.00 25.65 BTKB ATOM 3240 CA GLY 54126.643 31.243 41.437 1.00 30.15 BTKB ATOM 3241 C GLY 541 25.289 31.47140.809 1.00 32.87 BTKB ATOM 3242 O GLY 541 24.421 32.123 41.387 1.0034.13 BTKB ATOM 3243 N LEU 542 25.108 30.932 39.608 1.00 33.81 BTKB ATOM3244 CA LEU 542 23.824 31.022 38.929 1.00 34.85 BTKB ATOM 3245 CB LEU542 23.973 30.692 37.439 1.00 33.89 BTKB ATOM 3246 CG LEU 542 24.37229.277 37.014 1.00 31.57 BTKB ATOM 3247 CD1 LEU 542 23.136 28.530 36.5521.00 30.77 BTKB ATOM 3248 CD2 LEU 542 25.400 29.340 35.884 1.00 31.85BTKB ATOM 3249 C LEU 542 22.935 29.998 39.648 1.00 36.33 BTKB ATOM 3250O LEU 542 21.762 29.819 39.318 1.00 36.07 BTKB ATOM 3251 N SER 54323.547 29.300 40.605 1.00 36.24 BTKB ATOM 3252 CA SER 543 22.895 28.31641.450 1.00 34.49 BTKB ATOM 3253 CB SER 543 23.929 27.733 42.393 1.0031.44 BTKB ATOM 3254 OG SER 543 25.053 27.284 41.653 1.00 26.36 BTKBATOM 3255 C SER 543 21.837 29.077 42.230 1.00 36.96 BTKB ATOM 3256 O SER543 22.137 30.058 42.908 1.00 39.90 BTKB ATOM 3257 N ARG 544 20.60128.614 42.128 1.00 38.02 BTKB ATOM 3258 CA ARG 544 19.478 29.279 42.7581.00 40.54 BTKB ATOM 3259 CB ARG 544 18.172 28.682 42.241 1.00 38.19BTKB ATOM 3260 CG ARG 544 17.913 28.975 40.773 1.00 39.29 BTKB ATOM 3261CD ARG 544 17.874 30.471 40.482 1.00 37.23 BTKB ATOM 3262 NE ARG 54419.173 30.999 40.068 1.00 34.52 BTKB ATOM 3263 CZ ARG 544 19.810 32.00340.668 1.00 33.10 BTKB ATOM 3264 NH1 ARG 544 19.288 32.605 41.729 1.0031.47 BTKB ATOM 3265 NH2 ARG 544 20.965 32.431 40.183 1.00 33.04 BTKBATOM 3266 C ARG 544 19.399 29.478 44.265 1.00 43.19 BTKB ATOM 3267 O ARG544 20.208 28.975 45.047 1.00 41.34 BTKB ATOM 3268 N TYR 545 18.40730.285 44.630 1.00 46.71 BTKB ATOM 3269 CA TYR 545 18.074 30.644 46.0011.00 47.03 BTKB ATOM 3270 CB TYR 545 17.896 32.176 46.075 1.00 47.74BTKB ATOM 3271 CG TYR 545 18.059 32.828 47.440 1.00 46.83 BTKB ATOM 3272CD1 TYR 545 17.606 32.210 48.606 1.00 47.23 BTKB ATOM 3273 CE1 TYR 54517.742 32.829 49.853 1.00 49.06 BTKB ATOM 3274 CD2 TYR 545 18.653 34.08547.557 1.00 48.20 BTKB ATOM 3275 CE2 TYR 545 18.794 34.712 48.796 1.0048.88 BTKB ATOM 3276 CZ TYR 545 18.338 34.080 49.937 1.00 48.87 BTKBATOM 3277 OH TYR 545 18.491 34.695 51.158 1.00 49.33 BTKB ATOM 3278 CTYR 545 16.722 29.937 46.170 1.00 46.78 BTKB ATOM 3279 O TYR 545 16.49028.886 45.570 1.00 46.40 BTKB ATOM 3280 N VAL 546 15.818 30.542 46.9281.00 46.89 BTKB ATOM 3281 CA VAL 546 14.487 29.994 47.154 1.00 47.78BTKB ATOM 3282 CB VAL 546 14.440 29.047 48.385 1.00 48.44 BTKB ATOM 3283CG1 VAL 546 15.047 27.696 48.038 1.00 49.26 BTKB ATOM 3284 CG2 VAL 54615.174 29.668 49.569 1.00 49.28 BTKB ATOM 3285 C VAL 546 13.555 31.18047.374 1.00 47.25 BTKB ATOM 3286 O VAL 546 13.997 32.331 47.375 1.0046.90 BTKB ATOM 3287 N LEU 547 12.269 30.908 47.546 1.00 47.06 BTKB ATOM3288 CA LEU 547 11.291 31.964 47.764 1.00 47.07 BTKB ATOM 3289 CB LEU547 10.767 32.492 46.419 1.00 46.14 BTKB ATOM 3290 CG LEU 547 9.91633.768 46.428 1.00 46.13 BTKB ATOM 3291 CD1 LEU 547 10.754 34.945 46.9061.00 47.63 BTKB ATOM 3292 CD2 LEU 547 9.359 34.035 45.035 1.00 47.76BTKB ATOM 3293 C LEU 547 10.169 31.363 48.602 1.00 48.24 BTKB ATOM 3294O LEU 547 10.439 30.733 49.623 1.00 48.69 BTKB ATOM 3295 N ASP 548 8.92731.495 48.141 1.00 48.47 BTKB ATOM 3296 CA ASP 548 7.786 30.966 48.8711.00 47.63 BTKB ATOM 3297 CB ASP 548 6.480 31.345 48.164 1.00 47.12 BTKBATOM 3298 CG ASP 548 5.272 31.257 49.078 1.00 47.82 BTKB ATOM 3299 OD1ASP 548 4.251 30.681 48.653 1.00 47.08 BTKB ATOM 3300 OD2 ASP 548 5.33531.775 50.216 1.00 48.07 BTKB ATOM 3301 C ASP 548 7.907 29.451 49.0171.00 46.66 BTKB ATOM 3302 O ASP 548 8.000 28.944 50.131 1.00 45.89 BTKBATOM 3303 N ASP 549 7.954 28.735 47.896 1.00 47.04 BTKB ATOM 3304 CA ASP549 8.064 27.278 47.937 1.00 45.92 BTKB ATOM 3305 CB ASP 549 6.68326.643 48.100 1.00 44.19 BTKB ATOM 3306 CG ASP 549 6.155 26.745 49.5171.00 43.52 BTKB ATOM 3307 OD1 ASP 549 5.403 27.697 49.809 1.00 39.96BTKB ATOM 3308 OD2 ASP 549 6.494 25.870 50.340 1.00 43.98 BTKB ATOM 3309C ASP 549 8.787 26.633 46.755 1.00 46.60 BTKB ATOM 3310 O ASP 549 9.17925.470 46.835 1.00 48.82 BTKB ATOM 3311 N GLU 550 8.931 27.366 45.6531.00 46.02 BTKB ATOM 3312 CA GLU 550 9.611 26.852 44.459 1.00 44.77 BTKBATOM 3313 CB GLU 550 8.867 25.635 43.881 1.00 44.82 BTKB ATOM 3314 CGGLU 550 7.334 25.707 43.878 1.00 40.66 BTKB ATOM 3315 CD GLU 550 6.77226.820 43.009 1.00 39.18 BTKB ATOM 3316 OE1 GLU 550 6.074 27.701 43.5541.00 38.17 BTKB ATOM 3317 OE2 GLU 550 7.016 26.810 41.784 1.00 38.80BTKB ATOM 3318 C GLU 550 9.775 27.931 43.389 1.00 45.63 BTKB ATOM 3319 OGLU 550 9.743 29.123 43.701 1.00 42.92 BTKB ATOM 3320 N TYR 551 9.96927.509 42.141 1.00 45.07 BTKB ATOM 3321 CA TYR 551 10.119 28.427 41.0161.00 46.80 BTKB ATOM 3322 CB TYR 551 11.410 29.243 41.147 1.00 47.58BTKB ATOM 3323 CG TYR 551 12.684 28.433 41.176 1.00 46.34 BTKB ATOM 3324CD1 TYR 551 13.471 28.303 40.035 1.00 44.53 BTKB ATOM 3325 CE1 TYR 55114.668 27.596 40.063 1.00 45.32 BTKB ATOM 3326 CD2 TYR 551 13.126 27.83142.354 1.00 46.94 BTKB ATOM 3327 CE2 TYR 551 14.324 27.120 42.394 1.0046.70 BTKB ATOM 3328 CZ TYR 551 15.090 27.008 41.244 1.00 46.98 BTKBATOM 3329 OH TYR 551 16.275 26.309 41.268 1.00 47.08 BTKB ATOM 3330 CTYR 551 10.061 27.697 39.665 1.00 47.92 BTKB ATOM 3331 O TYR 551 9.57526.567 39.583 1.00 48.34 BTKB ATOM 3332 N THR 552 10.539 28.344 38.6061.00 47.56 BTKB ATOM 3333 CA THR 552 10.519 27.736 37.279 1.00 47.33BTKB ATOM 3334 CB THR 552 9.352 28.283 36.436 1.00 44.44 BTKB ATOM 3335OG1 THR 552 8.153 28.291 37.219 1.00 43.39 BTKB ATOM 3336 CG2 THR 5529.139 27.423 35.204 1.00 43.18 BTKB ATOM 3337 C THR 552 11.823 27.97536.521 1.00 48.87 BTKB ATOM 3338 O THR 552 12.474 27.030 36.080 1.0049.47 BTKB ATOM 3339 N SER 553 12.203 29.242 36.382 1.00 50.63 BTKB ATOM3340 CA SER 553 13.425 29.614 35.674 1.00 51.18 BTKB ATOM 3341 CB SER553 14.655 29.070 36.414 1.00 48.79 BTKB ATOM 3342 OG SER 553 14.75029.635 37.713 1.00 43.88 BTKB ATOM 3343 C SER 553 13.395 29.148 34.2101.00 51.91 BTKB ATOM 3344 O SER 553 12.331 29.148 33.584 1.00 52.66 BTKBATOM 3345 N SER 554 14.552 28.772 33.667 1.00 50.57 BTKB ATOM 3346 CASER 554 14.656 28.321 32.283 1.00 48.71 BTKB ATOM 3347 CB SER 554 16.12128.056 31.928 1.00 49.93 BTKB ATOM 3348 OG SER 554 16.904 29.219 32.1421.00 48.05 BTKB ATOM 3349 C SER 554 13.811 27.086 31.977 1.00 47.80 BTKBATOM 3350 O SER 554 14.228 25.955 32.228 1.00 49.68 BTKB ATOM 3351 N VAL555 12.624 27.319 31.427 1.00 45.84 BTKB ATOM 3352 CA VAL 555 11.70226.247 31.067 1.00 42.92 BTKB ATOM 3353 CB VAL 555 10.362 26.821 30.5701.00 38.45 BTKB ATOM 3354 CG1 VAL 555 9.363 25.703 30.345 1.00 41.05BTKB ATOM 3355 CG2 VAL 555 9.819 27.822 31.577 1.00 38.78 BTKB ATOM 3356C VAL 555 12.319 25.381 29.969 1.00 43.08 BTKB ATOM 3357 O VAL 55512.798 25.904 28.963 1.00 45.11 BTKB ATOM 3358 N GLY 556 12.284 24.06230.157 1.00 40.17 BTKB ATOM 3359 CA GLY 556 12.860 23.144 29.185 1.0036.28 BTKB ATOM 3360 C GLY 556 14.375 23.211 29.259 1.00 34.46 BTKB ATOM3361 O GLY 556 14.937 24.302 29.258 1.00 34.17 BTKB ATOM 3362 N SER 55715.042 22.065 29.357 1.00 37.09 BTKB ATOM 3363 CA SER 557 16.501 22.04729.451 1.00 39.60 BTKB ATOM 3364 CB SER 557 16.959 22.896 30.650 1.0042.29 BTKB ATOM 3365 OG SER 557 18.341 23.216 30.573 1.00 42.78 BTKBATOM 3366 C SER 557 17.084 20.634 29.581 1.00 39.69 BTKB ATOM 3367 O SER557 16.355 19.635 29.559 1.00 37.28 BTKB ATOM 3368 N LYS 558 18.40820.572 29.710 1.00 38.88 BTKB ATOM 3369 CA LYS 558 19.131 19.317 29.8611.00 38.70 BTKB ATOM 3370 CB LYS 558 20.122 19.107 28.711 1.00 40.51BTKB ATOM 3371 CG LYS 558 19.507 19.185 27.328 1.00 39.86 BTKB ATOM 3372CD LYS 558 19.318 20.630 26.895 1.00 40.70 BTKB ATOM 3373 CE LYS 55818.358 20.719 25.736 1.00 38.88 BTKB ATOM 3374 NZ LYS 558 17.034 20.17826.138 1.00 36.01 BTKB ATOM 3375 C LYS 558 19.883 19.350 31.188 1.0038.02 BTKB ATOM 3376 O LYS 558 20.904 20.019 31.327 1.00 38.61 BTKB ATOM3377 N PHE 559 19.342 18.648 32.171 1.00 35.11 BTKB ATOM 3378 CA PHE 55919.935 18.570 33.499 1.00 32.80 BTKB ATOM 3379 CB PHE 559 18.836 18.26834.530 1.00 35.42 BTKB ATOM 3380 CG PHE 559 17.431 18.422 33.991 1.0038.43 BTKB ATOM 3381 CD1 PHE 559 16.647 17.302 33.728 1.00 35.87 BTKBATOM 3382 CD2 PHE 559 16.902 19.685 33.730 1.00 35.45 BTKB ATOM 3383 CE1PHE 559 15.360 17.434 33.212 1.00 38.06 BTKB ATOM 3384 CE2 PHE 55915.616 19.827 33.214 1.00 33.30 BTKB ATOM 3385 CZ PHE 559 14.843 18.69632.954 1.00 36.08 BTKB ATOM 3386 C PHE 559 20.947 17.423 33.473 1.0030.75 BTKB ATOM 3387 O PHE 559 20.919 16.597 32.556 1.00 30.59 BTKB ATOM3388 N PRO 560 21.843 17.341 34.478 1.00 27.32 BTKB ATOM 3389 CD PRO 56022.005 18.208 35.658 1.00 23.09 BTKB ATOM 3390 CA PRO 560 22.832 16.25534.503 1.00 23.53 BTKB ATOM 3391 CB PRO 560 23.640 16.561 35.765 1.0020.79 BTKB ATOM 3392 CG PRO 560 22.668 17.275 36.631 1.00 19.96 BTKBATOM 3393 C PRO 560 22.166 14.872 34.563 1.00 23.08 BTKB ATOM 3394 O PRO560 22.778 13.857 34.212 1.00 21.72 BTKB ATOM 3395 N VAL 561 20.92114.846 35.037 1.00 22.54 BTKB ATOM 3396 CA VAL 561 20.118 13.629 35.1381.00 21.12 BTKB ATOM 3397 CB VAL 561 20.065 12.847 33.786 1.00 24.08BTKB ATOM 3398 CG1 VAL 561 19.095 11.656 33.890 1.00 22.39 BTKB ATOM3399 CG2 VAL 561 19.654 13.778 32.641 1.00 24.23 BTKB ATOM 3400 C VAL561 20.510 12.666 36.259 1.00 18.16 BTKB ATOM 3401 O VAL 561 19.70912.404 37.162 1.00 18.62 BTKB ATOM 3402 N ARG 562 21.729 12.141 36.2101.00 13.44 BTKB ATOM 3403 CA ARG 562 22.182 11.192 37.221 1.00 14.89BTKB ATOM 3404 CB ARG 562 23.606 10.726 36.919 1.00 18.46 BTKB ATOM 3405CG ARG 562 23.764 9.858 35.677 1.00 20.23 BTKB ATOM 3406 CD ARG 56223.654 10.637 34.387 1.00 19.70 BTKB ATOM 3407 NE ARG 562 24.262 9.89533.284 1.00 26.34 BTKB ATOM 3408 CZ ARG 562 23.614 9.045 32.495 1.0023.35 BTKB ATOM 3409 NH1 ARG 562 22.320 8.821 32.670 1.00 25.49 BTKBATOM 3410 NH2 ARG 562 24.277 8.394 31.549 1.00 20.77 BTKB ATOM 3411 CARG 562 22.129 11.748 38.639 1.00 14.76 BTKB ATOM 3412 O ARG 562 21.74511.051 39.584 1.00 15.25 BTKB ATOM 3413 N TRP 563 22.510 13.012 38.7691.00 13.56 BTKB ATOM 3414 CA TRP 563 22.544 13.707 40.050 1.00 15.17BTKB ATOM 3415 CB TRP 563 23.680 14.733 40.021 1.00 17.58 BTKB ATOM 3416CG TRP 563 25.024 14.120 39.845 1.00 16.68 BTKB ATOM 3417 CD2 TRP 56325.614 13.658 38.619 1.00 18.94 BTKB ATOM 3418 CE2 TRP 563 26.870 13.10638.945 1.00 19.94 BTKB ATOM 3419 CE3 TRP 563 25.202 13.651 37.280 1.0018.43 BTKB ATOM 3420 CD1 TRP 563 25.924 13.848 40.830 1.00 12.29 BTKBATOM 3421 NE1 TRP 563 27.028 13.233 40.300 1.00 18.47 BTKB ATOM 3422 CZ2TRP 563 27.724 12.552 37.979 1.00 20.36 BTKB ATOM 3423 CZ3 TRP 56326.056 13.097 36.314 1.00 17.95 BTKB ATOM 3424 CH2 TRP 563 27.298 12.55536.674 1.00 17.39 BTKB ATOM 3425 C TRP 563 21.236 14.431 40.346 1.0016.25 BTKB ATOM 3426 O TRP 563 21.202 15.361 41.157 1.00 15.08 BTKB ATOM3427 N SER 564 20.153 13.979 39.728 1.00 16.15 BTKB ATOM 3428 CA SER 56418.877 14.647 39.894 1.00 15.25 BTKB ATOM 3429 CB SER 564 18.450 15.22638.540 1.00 12.15 BTKB ATOM 3430 OG SER 564 19.456 16.046 37.961 1.0015.22 BTKB ATOM 3431 C SER 564 17.732 13.812 40.466 1.00 18.06 BTKB ATOM3432 O SER 564 17.643 12.604 40.245 1.00 18.41 BTKB ATOM 3433 N PRO 56516.852 14.453 41.250 1.00 19.48 BTKB ATOM 3434 CD PRO 565 17.013 15.80741.805 1.00 16.11 BTKB ATOM 3435 CA PRO 565 15.699 13.784 41.854 1.0020.89 BTKB ATOM 3436 CB PRO 565 15.154 14.852 42.801 1.00 20.19 BTKBATOM 3437 CG PRO 565 16.331 15.681 43.117 1.00 16.32 BTKB ATOM 3438 CPRO 565 14.678 13.499 40.748 1.00 24.06 BTKB ATOM 3439 O PRO 565 14.57814.260 39.778 1.00 25.01 BTKB ATOM 3440 N PRO 566 13.878 12.433 40.8921.00 25.49 BTKB ATOM 3441 CD PRO 566 13.859 11.410 41.947 1.00 24.25BTKB ATOM 3442 CA PRO 566 12.887 12.126 39.853 1.00 27.84 BTKB ATOM 3443CB PRO 566 12.114 10.966 40.470 1.00 26.01 BTKB ATOM 3444 CG PRO 56613.169 10.267 41.256 1.00 28.12 BTKB ATOM 3445 C PRO 566 11.985 13.33039.585 1.00 29.05 BTKB ATOM 3446 O PRO 566 11.516 13.537 38.465 1.0031.25 BTKB ATOM 3447 N GLU 567 11.805 14.151 40.613 1.00 30.57 BTKB ATOM3448 CA GLU 567 10.982 15.348 40.518 1.00 31.66 BTKB ATOM 3449 CB GLU567 11.006 16.119 41.841 1.00 30.30 BTKB ATOM 3450 CG GLU 567 10.49115.346 43.051 1.00 31.92 BTKB ATOM 3451 CD GLU 567 11.493 14.337 43.5941.00 30.79 BTKB ATOM 3452 OE1 GLU 567 12.348 14.722 44.424 1.00 29.93BTKB ATOM 3453 OE2 GLU 567 11.412 13.156 43.200 1.00 33.30 BTKB ATOM3454 C GLU 567 11.483 16.253 39.394 1.00 29.70 BTKB ATOM 3455 O GLU 56710.723 16.629 38.494 1.00 30.08 BTKB ATOM 3456 N VAL 568 12.779 16.55339.421 1.00 30.70 BTKB ATOM 3457 CA VAL 568 13.382 17.422 38.419 1.0030.50 BTKB ATOM 3458 CB VAL 568 14.737 17.976 38.885 1.00 30.30 BTKBATOM 3459 CG1 VAL 568 14.584 18.738 40.177 1.00 28.02 BTKB ATOM 3460 CG2VAL 568 15.718 16.866 39.048 1.00 24.92 BTKB ATOM 3461 C VAL 568 13.55316.767 37.052 1.00 31.05 BTKB ATOM 3462 O VAL 568 13.494 17.444 36.0281.00 33.18 BTKB ATOM 3463 N LEU 569 13.746 15.454 37.039 1.00 33.44 BTKBATOM 3464 CA LEU 569 13.924 14.711 35.791 1.00 34.63 BTKB ATOM 3465 CBLEU 569 14.322 13.266 36.091 1.00 32.99 BTKB ATOM 3466 CG LEU 569 15.65713.167 36.828 1.00 31.76 BTKB ATOM 3467 CD1 LEU 569 15.945 11.733 37.2681.00 26.25 BTKB ATOM 3468 CD2 LEU 569 16.742 13.705 35.902 1.00 28.56BTKB ATOM 3469 C LEU 569 12.687 14.733 34.899 1.00 36.45 BTKB ATOM 3470O LEU 569 12.741 14.313 33.745 1.00 36.82 BTKB ATOM 3471 N MET 57011.568 15.192 35.451 1.00 39.88 BTKB ATOM 3472 CA MET 570 10.325 13.27634.700 1.00 39.46 BTKB ATOM 3473 CB MET 570 9.255 14.381 35.332 1.0039.18 BTKB ATOM 3474 CG MET 570 9.607 12.895 35.325 1.00 38.41 BTKB ATOM3475 SD MET 570 8.311 11.837 36.007 1.00 37.44 BTKB ATOM 3476 CE MET 5708.698 11.878 37.754 1.00 37.14 BTKB ATOM 3477 C MET 570 9.831 16.71934.592 1.00 40.77 BTKB ATOM 3478 O MET 570 9.802 17.287 33.499 1.0041.26 BTKB ATOM 3479 N TYR 571 9.493 17.327 35.727 1.00 42.07 BTKB ATOM3480 CA TYR 571 8.985 18.703 35.739 1.00 43.90 BTKB ATOM 3481 CB TYR 5717.560 18.741 36.322 1.00 44.93 BTKB ATOM 3482 CG TYR 571 7.386 17.93337.593 1.00 45.07 BTKB ATOM 3483 CD1 TYR 571 6.986 16.595 37.542 1.0045.70 BTKB ATOM 3484 CE1 TYR 571 6.863 15.833 38.706 1.00 46.81 BTKBATOM 3485 CD2 TYR 571 7.653 18.493 38.842 1.00 46.94 BTKB ATOM 3486 CE2TYR 571 7.531 17.740 40.011 1.00 46.48 BTKB ATOM 3487 CZ TYR 571 7.13916.412 39.937 1.00 46.81 BTKB ATOM 3488 OH TYR 571 7.043 15.662 41.0891.00 45.30 BTKB ATOM 3489 C TYR 571 9.886 19.698 36.469 1.00 42.72 BTKBATOM 3490 O TYR 571 9.411 20.690 37.014 1.00 42.57 BTKB ATOM 3491 N SER572 11.183 19.410 36.490 1.00 42.42 BTKB ATOM 3492 CA SER 572 12.18120.260 37.136 1.00 40.33 BTKB ATOM 3493 CB SER 572 12.616 21.368 36.1751.00 41.33 BTKB ATOM 3494 OG SER 572 13.136 20.813 34.978 1.00 43.33BTKB ATOM 3495 C SER 572 11.803 20.849 38.500 1.00 37.82 BTKB ATOM 3496O SER 572 11.843 22.062 38.693 1.00 36.53 BTKB ATOM 3497 N LYS 57311.481 19.980 39.454 1.00 36.19 BTKB ATOM 3498 CA LYS 573 11.116 20.42140.798 1.00 34.19 BTKB ATOM 3499 CB LYS 573 10.084 19.476 41.406 1.0031.01 BTKB ATOM 3500 CG LYS 573 9.519 19.960 42.718 1.00 33.03 BTKB ATOM3501 CD LYS 573 8.828 21.296 42.551 1.00 26.52 BTKB ATOM 3502 CE LYS 5739.322 22.299 43.578 1.00 24.03 BTKB ATOM 3503 NZ LYS 573 10.709 22.74543.291 1.00 17.04 BTKB ATOM 3504 C LYS 573 12.335 20.550 41.720 1.0035.59 BTKB ATOM 3505 O LYS 573 12.666 19.636 42.481 1.00 33.63 BTKB ATOM3506 N PHE 574 13.001 21.696 41.620 1.00 38.79 BTKB ATOM 3507 CA PHE 57414.198 22.030 42.404 1.00 36.81 BTKB ATOM 3508 CB PHE 574 15.061 23.05741.657 1.00 37.78 BTKB ATOM 3509 CG PHE 574 14.330 23.776 40.555 1.0036.05 BTKB ATOM 3510 CD1 PHE 574 13.099 24.384 40.792 1.00 37.69 BTKBATOM 3511 CD2 PHE 574 14.856 23.811 39.269 1.00 38.01 BTKB ATOM 3512 CE1PHE 574 12.405 25.007 39.768 1.00 37.96 BTKB ATOM 3513 CE2 PHE 57414.168 24.435 38.236 1.00 38.31 BTKB ATOM 3514 CZ PHE 574 12.938 25.03438.487 1.00 39.59 BTKB ATOM 3515 C PHE 574 13.865 22.573 43.785 1.0034.93 BTKB ATOM 3516 O PHE 574 13.125 23.546 43.917 1.00 33.39 BTKB ATOM3517 N SER 575 14.473 21.988 44.806 1.00 32.93 BTKB ATOM 3518 CA SER 57514.229 22.405 46.178 1.00 31.78 BTKB ATOM 3519 CB SER 575 13.053 21.60746.740 1.00 30.36 BTKB ATOM 3520 OG SER 575 13.264 20.216 46.563 1.0031.46 BTKB ATOM 3521 C SER 575 15.459 22.157 47.040 1.00 32.41 BTKB ATOM3522 O SER 575 16.492 21.704 46.542 1.00 32.95 BTKB ATOM 3523 N SER 57615.338 22.453 48.333 1.00 31.52 BTKB ATOM 3524 CA SER 576 16.414 22.24249.297 1.00 26.86 BTKB ATOM 3525 CB SER 576 15.917 22.607 50.695 1.0030.38 BTKB ATOM 3526 OG SER 576 14.621 22.070 50.923 1.00 33.61 BTKBATOM 3527 C SER 576 16.827 20.772 49.275 1.00 23.09 BTKB ATOM 3528 O SER576 18.003 20.432 49.457 1.00 18.87 BTKB ATOM 3529 N LYS 577 15.84019.913 49.036 1.00 19.70 BTKB ATOM 3530 CA LYS 577 16.048 18.477 48.9731.00 15.88 BTKB ATOM 3531 CB LYS 577 14.753 17.732 49.286 1.00 15.45BTKB ATOM 3532 CG LYS 577 14.598 17.347 50.748 1.00 14.36 BTKB ATOM 3533CD LYS 577 14.604 18.548 51.663 1.00 10.74 BTKB ATOM 3534 CE LYS 57714.692 18.116 53.102 1.00 8.91 BTKB ATOM 3535 NZ LYS 577 15.888 17.27253.339 1.00 13.99 BTKB ATOM 3536 C LYS 577 16.627 17.985 47.659 1.0015.31 BTKB ATOM 3537 O LYS 577 16.966 16.815 47.550 1.00 18.88 BTKB ATOM3538 N SER 578 16.737 18.855 46.660 1.00 15.22 BTKB ATOM 3539 CA SER 57817.316 18.453 45.382 1.00 14.59 BTKB ATOM 3540 CB SER 578 17.043 19.49144.290 1.00 18.56 BTKB ATOM 3541 OG SER 578 15.680 19.499 43.903 1.0023.33 BTKB ATOM 3542 C SER 578 18.821 18.282 45.557 1.00 15.07 BTKB ATOM3543 O SER 578 19.398 17.307 45.075 1.00 16.57 BTKB ATOM 3544 N ASP 57919.448 19.220 46.267 1.00 15.79 BTKB ATOM 3545 CA ASP 579 20.888 19.16246.517 1.00 15.96 BTKB ATOM 3546 CB ASP 579 21.387 20.432 47.217 1.0015.23 BTKB ATOM 3547 CG ASP 579 21.587 21.610 46.261 1.00 16.89 BTKBATOM 3548 OD1 ASP 579 21.403 22.748 46.724 1.00 14.46 BTKB ATOM 3549 OD2ASP 579 21.953 21.414 45.075 1.00 17.09 BTKB ATOM 3550 C ASP 579 21.21817.955 47.378 1.00 18.59 BTKB ATOM 3551 O ASP 579 22.329 17.422 47.3131.00 20.19 BTKB ATOM 3552 N ILE 580 20.255 17.532 48.194 1.00 18.03 BTKBATOM 3553 CA ILE 580 20.447 16.373 49.054 1.00 17.50 BTKB ATOM 3554 CBILE 580 19.272 16.189 50.035 1.00 15.12 BTKB ATOM 3555 CG2 ILE 58019.377 14.837 50.760 1.00 14.16 BTKB ATOM 3556 CG1 ILE 580 19.274 17.32751.057 1.00 13.57 BTKB ATOM 3557 CD ILE 580 20.508 17.347 51.943 1.0012.21 BTKB ATOM 3558 C ILE 580 20.620 15.127 48.193 1.00 19.53 BTKB ATOM3559 O ILE 580 21.548 14.353 48.411 1.00 26.22 BTKB ATOM 3560 N TRP 58119.754 14.960 47.194 1.00 16.88 BTKB ATOM 3561 CA TRP 581 19.838 13.81546.291 1.00 11.89 BTKB ATOM 3562 CB TRP 581 18.753 13.885 45.217 1.008.40 BTKB ATOM 3563 CG TRP 581 18.746 12.692 44.284 1.00 7.47 BTKB ATOM3564 CD2 TRP 581 17.741 11.675 44.201 1.00 6.04 BTKB ATOM 3565 CE2 TRP581 18.130 10.788 43.165 1.00 6.60 BTKB ATOM 3566 CE3 TRP 581 16.54711.429 44.890 1.00 9.89 BTKB ATOM 3567 CD1 TRP 581 19.675 12.386 43.3291.00 5.91 BTKB ATOM 3568 NE1 TRP 581 19.310 11.247 42.654 1.00 4.72 BTKBATOM 3569 CZ2 TRP 581 17.362 9.676 42.805 1.00 7.81 BTKB ATOM 3570 CZ3TRP 581 15.783 10.324 44.532 1.00 6.46 BTKB ATOM 3571 CH2 TRP 581 16.1959.462 43.498 1.00 13.07 BTKB ATOM 3572 C TRP 581 21.206 13.785 45.6251.00 10.29 BTKB ATOM 3573 O TRP 581 21.909 12.770 45.678 1.00 11.92 BTKBATOM 3574 N ALA 582 21.590 14.911 45.022 1.00 10.55 BTKB ATOM 3575 CAALA 582 22.872 15.023 44.341 1.00 4.48 BTKB ATOM 3576 CB ALA 582 23.00316.387 43.684 1.00 4.04 BTKB ATOM 3577 C ALA 582 24.058 14.758 45.2611.00 6.67 BTKB ATOM 3578 O ALA 582 25.056 14.185 44.835 1.00 8.34 BTKBATOM 3579 N PHE 583 23.943 15.132 46.531 1.00 9.39 BTKB ATOM 3580 CA PHE583 25.038 14.908 47.478 1.00 8.21 BTKB ATOM 3581 CB PHE 583 24.74215.558 48.833 1.00 10.48 BTKB ATOM 3582 CG PHE 583 25.754 15.223 49.9011.00 8.42 BTKB ATOM 3583 CD1 PHE 583 27.045 15.745 49.847 1.00 7.25 BTKBATOM 3584 CD2 PHE 583 25.425 14.361 50.936 1.00 7.08 BTKB ATOM 3585 CE1PHE 583 27.995 15.408 50.807 1.00 4.56 BTKB ATOM 3586 CE2 PHE 583 26.36114.020 51.895 1.00 6.14 BTKB ATOM 3587 CZ PHE 583 27.654 14.543 51.8301.00 8.80 BTKB ATOM 3588 C PHE 583 25.295 13.424 47.682 1.00 9.03 BTKBATOM 3589 O PHE 583 26.435 13.005 47.927 1.00 3.30 BTKB ATOM 3590 N GLY584 24.225 12.640 47.618 1.00 10.23 BTKB ATOM 3591 CA GLY 584 24.34011.203 47.786 1.00 9.17 BTKB ATOM 3592 C GLY 584 25.042 10.597 46.5931.00 7.39 BTKB ATOM 3593 O GLY 584 25.857 9.690 46.735 1.00 10.68 BTKBATOM 3594 N VAL 585 24.728 11.112 45.408 1.00 9.02 BTKB ATOM 3595 CA VAL585 25.350 10.624 44.186 1.00 7.71 BTKB ATOM 3596 CB VAL 585 24.65811.184 42.925 1.00 6.04 BTKB ATOM 3597 CG1 VAL 585 25.359 10.699 41.6691.00 4.31 BTKB ATOM 3598 CG2 VAL 585 23.208 10.747 42.896 1.00 6.37 BTKBATOM 3599 C VAL 585 26.818 11.010 44.211 1.00 7.83 BTKB ATOM 3600 O VAL585 27.665 10.264 43.720 1.00 10.87 BTKB ATOM 3601 N LEU 586 27.11212.183 44.778 1.00 7.00 BTKB ATOM 3602 CA LEU 586 28.484 12.670 44.8991.00 4.53 BTKB ATOM 3603 CB LEU 586 28.522 14.102 45.455 1.00 2.00 BTKBATOM 3604 CG LEU 586 29.880 14.670 45.894 1.00 2.12 BTKB ATOM 3605 CD1LEU 586 30.010 16.106 45.440 1.00 7.20 BTKB ATOM 3606 CD2 LEU 586 30.02914.602 47.413 1.00 4.41 BTKB ATOM 3607 C LEU 586 29.247 11.724 45.8121.00 5.96 BTKB ATOM 3608 O LEU 586 30.365 11.323 45.493 1.00 8.74 BTKBATOM 3609 N MET 587 28.625 11.339 46.924 1.00 6.85 BTKB ATOM 3610 CA MET587 29.250 10.419 47.872 1.00 8.03 BTKB ATOM 3611 CB MET 587 28.31410.108 49.042 1.00 7.46 BTKB ATOM 3612 CG MET 587 28.255 11.188 50.0971.00 11.21 BTKB ATOM 3613 SD MET 587 27.548 10.557 51.621 1.00 9.37 BTKBATOM 3614 CE MET 587 25.884 10.932 51.370 1.00 7.42 BTKB ATOM 3615 C MET587 29.559 9.139 47.130 1.00 8.01 BTKB ATOM 3616 O MET 587 30.618 8.53447.314 1.00 9.09 BTKB ATOM 3617 N TRP 588 28.613 8.733 46.290 1.00 6.67BTKB ATOM 3618 CA TRP 588 28.754 7.332 45.484 1.00 4.52 BTKB ATOM 3619CB TRP 588 27.460 7.282 44.706 1.00 2.40 BTKB ATOM 3620 CG TRP 58827.421 5.979 44.025 1.00 4.75 BTKB ATOM 3621 CD2 TRP 588 27.806 5.71342.674 1.00 7.11 BTKB ATOM 3622 CE2 TRP 588 27.660 4.323 42.468 1.006.92 BTKB ATOM 3623 CE3 TRP 588 28.264 6.509 41.618 1.00 8.00 BTKB ATOM3624 CD1 TRP 588 27.059 4.787 44.566 1.00 4.69 BTKB ATOM 3625 NE1 TRP588 27.204 3.786 43.641 1.00 6.93 BTKB ATOM 3626 CZ2 TRP 588 27.9563.711 41.252 1.00 11.08 BTKB ATOM 3627 CZ3 TRP 588 28.563 5.904 40.4091.00 10.43 BTKB ATOM 3628 CH2 TRP 588 28.406 4.511 40.235 1.00 14.47BTKB ATOM 3629 C TRP 588 29.955 7.700 44.542 1.00 5.71 BTKB ATOM 3630 OTRP 588 30.785 6.780 44.407 1.00 2.00 BTKB ATOM 3631 N GLU 589 30.0858.893 43.951 1.00 6.18 BTKB ATOM 3632 CA GLU 589 31.198 9.194 43.0501.00 9.53 BTKB ATOM 3633 CB GLU 589 31.105 10.614 42.497 1.00 6.96 BTKBATOM 3634 CG GLU 589 29.917 10.879 41.608 1.00 10.53 BTKB ATOM 3635 CDGLU 589 29.935 12.283 41.037 1.00 10.94 BTKB ATOM 3636 OE1 GLU 58929.344 13.189 41.665 1.00 11.25 BTKB ATOM 3637 OE2 GLU 589 30.537 12.47939.959 1.00 15.70 BTKB ATOM 3638 C GLU 589 32.507 9.070 43.823 1.0011.10 BTKB ATOM 3639 O GLU 589 33.519 8.622 43.280 1.00 15.09 BTKB ATOM3640 N ILE 590 32.485 9.475 45.087 1.00 9.46 BTKB ATOM 3641 CA ILE 39033.668 9.413 45.928 1.00 8.87 BTKB ATOM 3642 CB ILE 590 33.453 10.20847.246 1.00 3.55 BTKB ATOM 3643 CG2 ILE 590 34.623 10.013 48.187 1.002.00 BTKB ATOM 3644 CG1 ILE 590 33.296 11.696 46.913 1.00 2.10 BTKB ATOM3645 CD ILE 590 32.967 12.585 48.066 1.00 2.00 BTKB ATOM 3646 C ILE 59034.078 7.960 46.194 1.00 12.45 BTKB ATOM 3647 O ILE 590 35.167 7.52545.780 1.00 11.72 BTKB ATOM 3648 N TYR 591 33.184 7.192 46.816 1.0015.34 BTKB ATOM 3649 CA TYR 591 33.461 5.791 47.111 1.00 13.05 BTKB ATOM3650 CB TYR 591 32.425 5.230 48.090 1.00 12.55 BTKB ATOM 3651 CG TYR 59132.669 5.737 49.488 1.00 10.68 BTKB ATOM 3652 CD1 TYR 591 32.075 6.91849.936 1.00 9.88 BTKB ATOM 3653 CE1 TYR 591 32.415 7.474 51.175 1.008.76 BTKB ATOM 3654 CD2 TYR 591 33.598 5.110 50.321 1.00 13.54 BTKB ATOM3655 CE2 TYR 591 33.940 5.653 51.564 1.00 10.89 BTKB ATOM 3656 CZ TYR591 33.349 6.836 51.978 1.00 9.81 BTKB ATOM 3657 OH TYR 591 33.712 7.40253.171 1.00 9.51 BTKB ATOM 3658 C TYR 591 33.585 4.938 45.850 1.00 12.23BTKB ATOM 3659 O TYR 591 34.024 3.790 45.909 1.00 17.98 BTKB ATOM 3660 NSER 592 33.185 5.499 44.713 1.00 11.77 BTKB ATOM 3661 CA SER 592 33.2904.803 43.438 1.00 11.46 BTKB ATOM 3662 CB SER 592 32.104 5.134 42.5431.00 9.01 BTKB ATOM 3663 OG SER 592 30.947 4.504 43.038 1.00 12.06 BTKBATOM 3664 C SER 592 34.589 5.180 42.739 1.00 12.26 BTKB ATOM 3665 O SER592 34.888 4.685 41.654 1.00 11.21 BTKB ATOM 3666 N LEU 593 35.342 6.07543.367 1.00 11.73 BTKB ATOM 3667 CA LEU 593 36.608 6.528 42.835 1.0013.65 BTKB ATOM 3668 CB LEU 593 37.646 5.408 42.919 1.00 14.04 BTKB ATOM3669 CG LEU 593 38.563 5.446 44.143 1.00 15.85 BTKB ATOM 3670 CD1 LEU593 37.764 5.702 45.398 1.00 12.60 BTKB ATOM 3671 CD2 LEU 593 39.3464.161 44.251 1.00 12.99 BTKB ATOM 3672 C LEU 593 36.494 7.086 41.4221.00 14.18 BTKB ATOM 3673 O LEU 593 37.319 6.795 40.554 1.00 16.11 BTKBATOM 3674 N GLY 594 35.464 7.899 41.200 1.00 14.51 BTKB ATOM 3675 CA GLY594 35.274 8.508 39.897 1.00 13.72 BTKB ATOM 3676 C GLY 594 34.316 7.82538.946 1.00 14.52 BTKB ATOM 3677 O GLY 594 34.060 8.347 37.868 1.0016.91 BTKB ATOM 3678 N LYS 595 33.794 6.662 39.321 1.00 13.58 BTKB ATOM3679 CA LYS 595 32.846 5.947 38.470 1.00 13.97 BTKB ATOM 3680 CB LYS 59532.358 4.663 39.138 1.00 13.75 BTKB ATOM 3681 CG LYS 595 33.049 3.41238.664 1.00 13.60 BTKB ATOM 3682 CD LYS 595 32.338 2.180 39.200 1.0017.92 BTKB ATOM 3683 CE LYS 595 32.493 2.037 40.711 1.00 17.12 BTKB ATOM3684 NZ LYS 595 31.791 0.819 41.230 1.00 20.68 BTKB ATOM 3685 C LYS 59531.644 6.812 38.144 1.00 14.65 BTKB ATOM 3686 O LYS 595 31.032 7.40439.031 1.00 17.03 BTKB ATOM 3687 N MET 596 31.300 6.865 36.866 1.0017.91 BTKB ATOM 3688 CA MET 596 30.170 7.656 36.406 1.00 18.99 BTKB ATOM3689 CB MET 596 30.204 7.773 34.877 1.00 20.77 BTKB ATOM 3690 CG MET 59629.765 9.127 34.318 1.00 27.47 BTKB ATOM 3691 SD MET 596 28.020 9.26933.847 1.00 36.00 BTKB ATOM 3692 CE MET 596 27.936 8.063 32.504 1.0033.44 BTKB ATOM 3693 C MET 596 28.908 6.942 36.856 1.00 18.04 BTKB ATOM3694 O MET 596 28.785 5.731 36.683 1.00 17.78 BTKB ATOM 3695 N PRO 59727.968 7.677 37.469 1.00 16.14 BTKB ATOM 3696 CD PRO 597 28.043 9.10637.815 1.00 17.99 BTKB ATOM 3697 CA PRO 597 26.712 7.101 37.947 1.0015.23 BTKB ATOM 3698 CB PRO 597 26.015 8.295 38.602 1.00 15.62 BTKB ATOM3699 CG PRO 597 27.134 9.181 39.007 1.00 17.68 BTKB ATOM 3700 C PRO 59725.866 6.546 36.811 1.00 16.15 BTKB ATOM 3701 O PRO 597 25.801 7.12335.726 1.00 17.62 BTKB ATOM 3702 N TYR 598 25.222 5.417 37.081 1.0015.61 BTKB ATOM 3703 CA TYR 598 24.338 4.759 36.126 1.00 15.98 BTKB ATOM3704 CB TYR 598 23.083 5.610 35.896 1.00 15.24 BTKB ATOM 3705 CG TYR 59822.397 5.998 37.185 1.00 14.48 BTKB ATOM 3706 CD1 TYR 598 21.945 5.02838.073 1.00 13.82 BTKB ATOM 3707 CE1 TYR 598 21.387 5.377 39.290 1.0011.98 BTKB ATOM 3708 CD2 TYR 598 22.261 7.332 37.551 1.00 14.46 BTKBATOM 3709 CE2 TYR 598 21.701 7.685 38.766 1.00 10.83 BTKB ATOM 3710 CZTYR 598 21.267 6.704 39.629 1.00 5.19 BTKB ATOM 3711 OH TYR 598 20.7037.054 40.837 1.00 8.13 BTKB ATOM 3712 C TYR 598 24.985 4.381 34.801 1.0019.01 BTKB ATOM 3713 O TYR 598 24.347 4.425 33.757 1.00 23.02 BTKB ATOM3714 N GLU 599 26.262 4.022 34.847 1.00 21.18 BTKB ATOM 3715 CA GLU 59926.990 3.602 33.653 1.00 20.51 BTKB ATOM 3716 CB GLU 599 28.421 3.18934.006 1.00 25.07 BTKB ATOM 3717 CG GLU 599 28.524 2.125 35.102 1.0030.47 BTKB ATOM 3718 CD GLU 599 28.319 2.690 36.504 1.00 26.36 BTKB ATOM3719 OE1 GLU 599 29.312 3.160 37.099 1.00 28.29 BTKB ATOM 3720 OE2 GLU599 27.171 2.665 37.008 1.00 27.77 BTKB ATOM 3721 C GLU 599 26.245 2.41733.071 1.00 21.77 BTKB ATOM 3722 O GLU 599 25.609 1.661 33.806 1.0021.45 BTKB ATOM 3723 N ARG 600 26.332 2.250 31.757 1.00 24.08 BTKB ATOM3724 CA ARG 600 25.637 1.164 31.062 1.00 27.74 BTKB ATOM 3725 CB ARG 60025.784 −0.179 31.806 1.00 31.38 BTKB ATOM 3726 CG ARG 600 26.892 −1.06531.269 1.00 33.68 BTKB ATOM 3727 CD ARG 600 26.456 −1.680 29.954 1.0034.17 BTKB ATOM 3728 NE ARG 600 27.570 −1.896 29.039 1.00 38.49 BTKBATOM 3729 CZ ARG 600 27.804 −1.145 27.968 1.00 37.73 BTKB ATOM 3730 NH1ARG 600 28.841 −1.413 27.179 1.00 37.45 BTKB ATOM 3731 NH2 ARG 60027.001 −0.123 27.685 1.00 39.50 BTKB ATOM 3732 C ARG 600 24.165 1.52030.860 1.00 27.26 BTKB ATOM 3733 O ARG 600 23.356 0.679 30.479 1.0025.64 BTKB ATOM 3734 N PHE 601 23.830 2.775 31.133 1.00 27.59 BTKB ATOM3735 CA PHE 601 22.479 3.289 30.962 1.00 26.40 BTKB ATOM 3736 CB PHE 60121.869 3.704 32.302 1.00 23.15 BTKB ATOM 3737 CG PHE 601 21.279 2.57633.091 1.00 17.15 BTKB ATOM 3738 CD1 PHE 601 19.961 2.190 32.887 1.0020.02 BTKB ATOM 3739 CD2 PHE 601 22.017 1.944 34.083 1.00 19.77 BTKBATOM 3740 CE1 PHE 601 19.381 1.194 33.665 1.00 17.60 BTKB ATOM 3741 CE2PHE 601 21.449 0.951 34.864 1.00 16.15 BTKB ATOM 3742 CZ PHE 601 20.1260.575 34.655 1.00 20.16 BTKB ATOM 3743 C PHE 601 22.617 4.534 30.1051.00 28.08 BTKB ATOM 3744 O PHE 601 23.705 5.111 30.011 1.00 28.57 BTKBATOM 3745 N THR 602 21.534 4.915 29.436 1.00 30.07 BTKB ATOM 3746 CA THR602 21.530 6.116 28.610 1.00 30.13 BTKB ATOM 3747 CB THR 602 20.7335.924 27.293 1.00 28.51 BTKB ATOM 3748 OG1 THR 602 19.384 5.543 27.5921.00 27.73 BTKB ATOM 3749 CG2 THR 602 21.379 4.867 26.417 1.00 32.12BTKB ATOM 3750 C THR 602 20.820 7.140 29.476 1.00 31.17 BTKB ATOM 3751 OTHR 602 20.274 6.785 30.524 1.00 32.73 BTKB ATOM 3752 N ASN 603 20.7878.394 29.042 1.00 30.48 BTKB ATOM 3753 CA ASN 603 20.117 9.419 29.8271.00 30.44 BTKB ATOM 3754 CB ASN 603 20.389 10.807 29.261 1.00 32.39BTKB ATOM 3755 CG ASN 603 21.239 11.644 30.186 1.00 30.79 BTKB ATOM 3756OD1 ASN 603 21.885 11.123 31.095 1.00 31.05 BTKB ATOM 3757 ND2 ASN 60321.238 12.950 29.968 1.00 32.87 BTKB ATOM 3758 C ASN 603 18.623 9.16729.925 1.00 29.48 BTKB ATOM 3759 O ASN 603 18.041 9.265 31.009 1.0024.85 BTKB ATOM 3760 N SER 604 18.011 8.817 28.797 1.00 29.99 BTKB ATOM3761 CA SER 604 16.578 8.537 28.755 1.00 31.56 BTKB ATOM 3762 CB SER 60416.102 8.397 27.304 1.00 32.42 BTKB ATOM 3763 OG SER 604 16.425 9.55126.541 1.00 31.79 BTKB ATOM 3764 C SER 604 16.245 7.270 29.545 1.0032.01 BTKB ATOM 3765 O SER 604 15.194 7.182 30.181 1.00 34.74 BTKB ATOM3766 N GLU 605 17.158 6.303 29.533 1.00 31.68 BTKB ATOM 3767 CA GLU 60516.954 5.052 30.252 1.00 29.12 BTKB ATOM 3768 CB GLU 605 17.914 3.98229.734 1.00 30.98 BTKB ATOM 3769 CG GLU 605 17.561 2.565 30.172 1.0035.34 BTKB ATOM 3770 CD GLU 605 18.487 1.517 29.576 1.00 36.90 BTKB ATOM3771 OE1 GLU 605 19.699 1.805 29.453 1.00 38.25 BTKB ATOM 3772 OE2 GLU605 18.005 0.412 29.231 1.00 34.49 BTKB ATOM 3773 C GLU 605 17.148 5.25631.753 1.00 29.75 BTKB ATOM 3774 O GLU 605 16.421 4.677 32.565 1.0032.16 BTKB ATOM 3775 N THR 606 18.131 6.074 32.116 1.00 26.59 BTKB ATOM3776 CA THR 606 18.422 6.373 33.512 1.00 20.20 BTKB ATOM 3777 CB THR 60619.691 7.243 33.621 1.00 18.39 BTKB ATOM 3778 OG1 THR 606 20.802 6.52633.066 1.00 16.50 BTKB ATOM 3779 CG2 THR 606 19.987 7.603 35.079 1.0013.19 BTKB ATOM 3780 C THR 606 17.233 7.103 34.139 1.00 20.29 BTKB ATOM3781 O THR 606 16.828 6.813 35.274 1.00 20.04 BTKB ATOM 3782 N ALA 60716.663 8.029 33.371 1.00 22.46 BTKB ATOM 3783 CA ALA 607 15.510 8.81633.801 1.00 22.03 BTKB ATOM 3784 CB ALA 607 15.165 9.859 32.730 1.0021.28 BTKB ATOM 3785 C ALA 607 14.291 7.932 34.108 1.00 21.12 BTKB ATOM3786 O ALA 607 13.614 8.121 35.123 1.00 21.53 BTKB ATOM 3787 N GLU 60814.036 6.950 33.247 1.00 21.20 BTKB ATOM 3788 CA GLU 608 12.897 6.05233.439 1.00 22.97 BTKB ATOM 3789 CB GLU 608 12.661 5.208 32.176 1.0023.32 BTKB ATOM 3790 CG GLU 608 11.367 4.380 32.194 1.00 27.71 BTKB ATOM3791 CD GLU 608 11.607 2.865 32.186 1.00 30.68 BTKB ATOM 3792 OE1 GLU608 12.115 2.334 31.172 1.00 33.86 BTKB ATOM 3793 OE2 GLU 608 11.2732.203 33.195 1.00 29.86 BTKB ATOM 3794 C GLU 608 13.096 5.136 34.6511.00 23.05 BTKB ATOM 3795 O GLU 608 12.171 4.902 35.445 1.00 21.90 BTKBATOM 3796 N HIS 609 14.316 4.633 34.789 1.00 20.59 BTKB ATOM 3797 CA HIS609 14.652 3.729 35.870 1.00 18.86 BTKB ATOM 3798 CB HIS 609 15.9963.060 35.595 1.00 21.17 BTKB ATOM 3799 CG HIS 609 15.908 1.918 34.6341.00 23.56 BTKB ATOM 3800 CD2 HIS 609 15.503 0.640 34.810 1.00 28.37BTKB ATOM 3801 ND1 HIS 609 16.253 2.032 33.306 1.00 27.89 BTKB ATOM 3802CE1 HIS 609 16.064 0.872 32.702 1.00 30.83 BTKB ATOM 3803 NE2 HIS 60915.610 0.010 33.594 1.00 30.60 BTKB ATOM 3804 C HIS 609 14.602 4.30637.281 1.00 16.90 BTKB ATOM 3805 O HIS 609 14.136 3.629 38.199 1.0021.44 BTKB ATOM 3806 N ILE 610 15.061 5.541 37.466 1.00 15.25 BTKB ATOM3807 CA ILE 610 15.039 6.149 38.795 1.00 10.99 BTKB ATOM 3808 CB ILE 61015.687 7.562 38.817 1.00 10.27 BTKB ATOM 3809 CG2 ILE 610 15.697 8.11540.226 1.00 10.71 BTKB ATOM 3810 CG1 ILE 610 17.131 7.499 38.329 1.009.01 BTKB ATOM 3811 CD ILE 610 17.972 6.524 39.067 1.00 13.90 BTKB ATOM3812 C ILE 610 13.608 6.244 39.312 1.00 11.94 BTKB ATOM 3813 O ILE 61013.335 5.926 40.462 1.00 15.24 BTKB ATOM 3814 N ALA 611 12.690 6.63838.442 1.00 15.61 BTKB ATOM 3815 CA ALA 611 11.291 6.767 38.823 1.0018.54 BTKB ATOM 3816 CB ALA 611 10.484 7.345 37.668 1.00 18.01 BTKB ATOM3817 C ALA 611 10.697 5.431 39.270 1.00 21.52 BTKB ATOM 3818 O ALA 6119.972 5.365 40.267 1.00 24.49 BTKB ATOM 3819 N GLN 612 11.023 4.36638.546 1.00 23.83 BTKB ATOM 3820 CA GLN 612 10.507 3.038 38.865 1.0022.70 BTKB ATOM 3821 CB GLN 612 10.736 2.091 37.691 1.00 26.14 BTKB ATOM3822 CG GLN 612 10.119 2.574 36.374 1.00 29.22 BTKB ATOM 3823 CD GLN 6128.597 2.714 36.418 1.00 34.44 BTKB ATOM 3824 OE1 GLN 612 7.956 2.44737.434 1.00 32.43 BTKB ATOM 3825 NE2 GLN 612 8.017 3.128 35.299 1.0033.12 BTKB ATOM 3826 C GLN 612 11.084 2.453 40.151 1.00 21.66 BTKB ATOM3827 O GLN 612 10.501 1.541 40.741 1.00 23.34 BTKB ATOM 3828 N GLY 61312.224 2.975 40.593 1.00 20.85 BTKB ATOM 3829 CA GLY 613 12.816 2.48841.824 1.00 17.52 BTKB ATOM 3830 C GLY 613 14.300 2.188 41.764 1.0017.19 BTKB ATOM 3831 O GLY 613 14.892 1.783 42.769 1.00 16.74 BTKB ATOM3832 N LEU 614 14.902 2.366 40.594 1.00 14.38 BTKB ATOM 3833 CA LEU 61416.327 2.105 40.427 1.00 13.63 BTKB ATOM 3834 CB LEU 614 16.701 2.15238.947 1.00 11.11 BTKB ATOM 3835 CG LEU 614 18.127 1.939 38.433 1.0010.02 BTKB ATOM 3836 CD1 LEU 614 18.886 3.239 38.427 1.00 8.37 BTKB ATOM3837 CD2 LEU 614 18.842 0.853 39.211 1.00 13.13 BTKB ATOM 3838 C LEU 61417.183 3.065 41.248 1.00 13.27 BTKB ATOM 3839 O LEU 614 16.938 4.27441.278 1.00 11.31 BTKB ATOM 3840 N ARG 615 18.206 2.502 41.889 1.0013.39 BTKB ATOM 3841 CA ARG 615 19.130 3.240 42.735 1.00 11.32 BTKB ATOM3842 CB ARG 615 18.781 3.016 44.206 1.00 13.75 BTKB ATOM 3843 CG ARG 61517.381 3.443 44.614 1.00 14.44 BTKB ATOM 3844 CD ARG 615 17.228 4.94644.642 1.00 12.94 BTKB ATOM 3845 NE ARG 615 15.899 5.303 45.124 1.0011.71 BTKB ATOM 3846 CZ ARG 615 14.893 5.685 44.345 1.00 11.61 BTKB ATOM3847 NH1 ARG 615 15.058 5.772 43.036 1.00 13.30 BTKB ATOM 3848 NH2 ARG615 13.708 5.949 44.876 1.00 16.80 BTKB ATOM 3849 C ARG 615 20.564 2.77342.501 1.00 12.33 BTKB ATOM 3850 O ARG 615 20.807 1.751 41.850 1.0014.35 BTKB ATOM 3851 N LEU 616 21.504 3.526 43.066 1.00 17.12 BTKB ATOM3852 CA LEU 616 22.936 3.251 42.967 1.00 13.55 BTKB ATOM 3853 CB LEU 61623.730 4.525 43.258 1.00 12.49 BTKB ATOM 3854 CG LEU 616 24.452 5.27342.132 1.00 15.47 BTKB ATOM 3855 CD1 LEU 616 24.288 4.570 40.788 1.0020.12 BTKB ATOM 3856 CD2 LEU 616 23.990 6.720 42.086 1.00 11.52 BTKBATOM 3857 C LEU 616 23.337 2.177 43.961 1.00 12.84 BTKB ATOM 3858 O LEU616 22.963 2.234 45.135 1.00 11.91 BTKB ATOM 3859 N TYR 617 24.100 1.20043.483 1.00 12.87 BTKB ATOM 3860 CA TYR 617 24.561 0.109 44.322 1.008.22 BTKB ATOM 3861 CB TYR 617 25.037 −1.067 43.453 1.00 7.64 BTKB ATOM3862 CG TYR 617 26.116 −0.724 42.444 1.00 4.38 BTKB ATOM 3863 CD1 TYR617 27.400 −0.394 42.852 1.00 5.18 BTKB ATOM 3864 CE1 TYR 617 28.382−0.065 41.935 1.00 5.80 BTKB ATOM 3865 CD2 TYR 617 25.843 −0.722 41.0821.00 6.41 BTKB ATOM 3866 CE2 TYR 617 26.827 −0.395 40.148 1.00 7.22 BTKBATOM 3867 CZ TYR 617 28.092 −0.070 40.584 1.00 7.64 BTKB ATOM 3868 OHTYR 617 29.082 0.223 39.674 1.00 9.96 BTKB ATOM 3869 C TYR 617 25.6790.600 45.239 1.00 8.77 BTKB ATOM 3870 O TYR 617 26.286 1.631 44.990 1.007.36 BTKB ATOM 3871 N ARG 618 25.952 −0.147 46.295 1.00 8.18 BTKB ATOM3872 CA ARG 618 27.001 0.219 47.229 1.00 8.36 BTKB ATOM 3873 CB ARG 61826.879 −0.618 48.511 1.00 6.48 BTKB ATOM 3874 CG ARG 618 27.967 −0.36049.527 1.00 6.90 BTKB ATOM 3875 CD ARG 618 27.593 −0.867 50.907 1.009.82 BTKB ATOM 3876 NE ARG 618 27.871 −2.281 51.118 1.00 14.88 BTKB ATOM3877 CZ ARG 618 28.894 −2.735 51.835 1.00 13.15 BTKB ATOM 3878 NH1 ARG618 29.733 −1.888 52.394 1.00 14.59 BTKB ATOM 3879 NH2 ARG 618 29.052−4.033 52.047 1.00 13.61 BTKB ATOM 3880 C ARG 618 28.383 0.013 46.6161.00 8.62 BTKB ATOM 3881 O ARG 618 28.688 −1.062 46.086 1.00 10.77 BTKBATOM 3882 N PRO 619 29.220 1.057 46.623 1.00 6.53 BTKB ATOM 3883 CD PRO619 28.936 2.487 46.840 1.00 3.47 BTKB ATOM 3884 CA PRO 619 30.553 0.86946.051 1.00 8.75 BTKB ATOM 3885 CB PRO 619 31.116 2.286 46.032 1.00 5.78BTKB ATOM 3886 CG PRO 619 29.882 3.142 45.874 1.00 5.70 BTKB ATOM 3887 CPRO 619 31.382 −0.040 46.962 1.00 11.49 BTKB ATOM 3888 O PRO 619 31.251−0.002 48.188 1.00 8.13 BTKB ATOM 3889 N HIS 620 32.192 −0.896 46.3511.00 13.39 BTKB ATOM 3890 CA HIS 620 33.058 −1.805 47.090 1.00 16.43BTKB ATOM 3891 CB HIS 620 34.061 −2.507 46.145 1.00 23.71 BTKB ATOM 3892CG HIS 620 34.288 −1.798 44.833 1.00 29.79 BTKB ATOM 3893 CD2 HIS 62034.138 −0.503 44.468 1.00 31.60 BTKB ATOM 3894 ND1 HIS 620 34.719 −2.46443.704 1.00 31.86 BTKB ATOM 3895 CE1 HIS 620 34.820 −1.607 42.699 1.0033.57 BTKB ATOM 3896 NE2 HIS 620 34.471 −0.411 43.140 1.00 35.83 BTKBATOM 3897 C HIS 620 33.804 −1.148 48.267 1.00 15.65 BTKB ATOM 3898 O HIS620 33.963 −1.764 49.328 1.00 14.45 BTKB ATOM 3899 N LEU 621 34.2350.100 48.080 1.00 11.67 BTKB ATOM 3900 CA LEU 621 34.974 0.834 49.1031.00 9.74 BTKB ATOM 3901 CB LEU 621 35.792 1.955 48.464 1.00 12.10 BTKBATOM 3902 CG LEU 621 36.869 1.540 47.459 1.00 10.83 BTKB ATOM 3903 CD1LEU 621 36.318 1.644 46.047 1.00 12.43 BTKB ATOM 3904 CD2 LEU 621 38.0782.426 47.601 1.00 13.18 BTKB ATOM 3905 C LEU 621 34.155 1.404 50.2611.00 10.03 BTKB ATOM 3906 O LEU 621 34.717 1.801 51.284 1.00 10.92 BTKBATOM 3907 N ALA 622 32.836 1.436 50.101 1.00 10.32 BTKB ATOM 3908 CA ALA622 31.944 1.964 51.120 1.00 11.25 BTKB ATOM 3909 CB ALA 622 30.7002.563 50.460 1.00 12.08 BTKB ATOM 3910 C ALA 622 31.536 0.862 52.0851.00 13.04 BTKB ATOM 3911 O ALA 622 31.502 −0.307 51.719 1.00 15.23 BTKBATOM 3912 N SER 623 31.279 1.230 53.332 1.00 14.15 BTKB ATOM 3913 CA SER623 30.837 0.270 54.325 1.00 11.19 BTKB ATOM 3914 CB SER 623 31.4160.611 55.696 1.00 9.54 BTKB ATOM 3915 OG SER 623 30.949 1.864 56.1701.00 8.50 BTKB ATOM 3916 C SER 623 29.312 0.331 54.349 1.00 10.40 BTKBATOM 3917 O SER 623 28.702 1.234 53.768 1.00 14.47 BTKB ATOM 3918 N GLU624 28.692 −0.651 54.985 1.00 10.03 BTKB ATOM 3919 CA GLU 624 27.238−0.714 55.093 1.00 10.70 BTKB ATOM 3920 CB GLU 624 26.869 −1.867 56.0271.00 15.43 BTKB ATOM 3921 CG GLU 624 25.423 −1.946 56.491 1.00 15.78BTKB ATOM 3922 CD GLU 624 25.244 −2.977 57.601 1.00 19.80 BTKB ATOM 3923OE1 GLU 624 26.105 −3.060 58.503 1.00 22.20 BTKB ATOM 3924 OE2 GLU 62424.240 −3.709 57.574 1.00 22.73 BTKB ATOM 3925 C GLU 624 26.660 0.60555.612 1.00 10.33 BTKB ATOM 3926 O GLU 624 25.627 1.078 55.124 1.0012.18 BTKB ATOM 3927 N LYS 625 27.335 1.202 56.591 1.00 13.68 BTKB ATOM3928 CA LYS 625 26.886 2.461 57.172 1.00 13.17 BTKB ATOM 3929 CB LYS 62527.641 2.761 58.470 1.00 13.89 BTKB ATOM 3930 CG LYS 625 26.960 3.80659.351 1.00 19.82 BTKB ATOM 3931 CD LYS 625 27.145 3.522 60.843 1.0021.52 BTKB ATOM 3932 CE LYS 625 26.398 2.261 61.281 1.00 24.13 BTKB ATOM3933 NZ LYS 625 26.554 1.946 62.735 1.00 26.73 BTKB ATOM 3934 C LYS 62527.007 3.608 56.175 1.00 12.94 BTKB ATOM 3935 O LYS 625 26.074 4.39356.023 1.00 17.08 BTKB ATOM 3936 N VAL 626 28.118 3.671 55.446 1.0013.16 BTKB ATOM 3937 CA VAL 626 28.310 4.726 54.445 1.00 10.56 BTKB ATOM3938 CB VAL 626 29.698 4.646 53.758 1.00 10.58 BTKB ATOM 3939 CG1 VAL626 29.775 5.671 52.634 1.00 13.96 BTKB ATOM 3940 CG2 VAL 626 30.8024.904 54.763 1.00 6.81 BTKB ATOM 3941 C VAL 626 27.221 4.653 53.368 1.008.76 BTKB ATOM 3942 O VAL 626 26.757 5.681 52.870 1.00 6.95 BTKB ATOM3943 N TYR 627 26.827 3.438 53.001 1.00 7.31 BTKB ATOM 3944 CA TYR 62725.780 3.243 52.001 1.00 7.99 BTKB ATOM 3945 CB TYR 627 25.674 1.77351.598 1.00 2.15 BTKB ATOM 3946 CG TYR 627 24.723 1.544 50.454 1.00 4.61BTKB ATOM 3947 CD1 TYR 627 24.718 2.400 49.352 1.00 10.72 BTKB ATOM 3948CE1 TYR 627 23.845 2.201 48.298 1.00 9.43 BTKB ATOM 3949 CD2 TYR 62723.828 0.482 50.468 1.00 5.07 BTKB ATOM 3950 CE2 TYR 627 22.946 0.27349.410 1.00 6.61 BTKB ATOM 3951 CZ TYR 627 22.962 1.139 48.334 1.00 5.55BTKB ATOM 3952 OH TYR 627 22.092 0.961 47.297 1.00 11.16 BTKB ATOM 3953C TYR 627 24.429 3.715 52.518 1.00 9.39 BTKB ATOM 3954 O TYR 627 23.5994.187 51.754 1.00 11.16 BTKB ATOM 3955 N THR 628 24.201 3.546 53.8131.00 9.89 BTKB ATOM 3956 CA THR 628 22.961 3.976 54.447 1.00 9.04 BTKBATOM 3957 CB THR 628 22.989 3.636 55.961 1.00 10.10 BTKB ATOM 3958 OG1THR 628 23.201 2.229 56.132 1.00 13.62 BTKB ATOM 3959 CG2 THR 628 21.6914.033 56.633 1.00 6.51 BTKB ATOM 3960 C THR 628 22.868 5.490 54.289 1.007.33 BTKB ATOM 3961 O THR 628 21.856 6.023 53.853 1.00 6.66 BTKB ATOM3962 N ILE 629 23.967 6.167 54.589 1.00 6.78 BTKB ATOM 3963 CA ILE 62924.031 7.617 54.493 1.00 8.03 BTKB ATOM 3964 CB ILE 629 25.417 8.15154.964 1.00 6.17 BTKB ATOM 3965 CG2 ILE 629 25.531 9.649 54.709 1.005.05 BTKB ATOM 3966 CG1 ILE 629 25.593 7.854 56.459 1.00 5.15 BTKB ATOM3967 CD ILE 629 26.999 8.035 56.969 1.00 2.34 BTKB ATOM 3968 C ILE 62923.690 8.120 53.085 1.00 12.02 BTKB ATOM 3969 O ILE 629 22.702 8.84252.900 1.00 13.66 BTKB ATOM 3970 N MET 630 24.439 7.676 52.085 1.0011.42 BTKB ATOM 3971 CA MET 630 24.185 8.124 50.727 1.00 7.89 BTKB ATOM3972 CB MET 630 25.249 7.600 49.756 1.00 11.44 BTKB ATOM 3973 CG MET 63025.288 6.095 49.574 1.00 14.27 BTKB ATOM 3974 SD MET 630 26.438 5.61348.277 1.00 14.21 BTKB ATOM 3975 CE MET 630 27.987 5.700 49.104 1.003.93 BTKB ATOM 3976 C MET 630 22.798 7.766 50.246 1.00 6.76 BTKB ATOM3977 O MET 630 22.164 8.542 49.525 1.00 9.02 BTKB ATOM 3978 N TYR 63122.303 6.618 50.696 1.00 9.53 BTKB ATOM 3979 CA TYR 631 20.981 6.14350.301 1.00 9.62 BTKB ATOM 3980 CB TYR 631 20.837 4.637 50.583 1.00 7.23BTKB ATOM 3981 CG TYR 631 19.708 3.978 49.819 1.00 9.49 BTKB ATOM 3982CD1 TYR 631 18.385 4.120 50.232 1.00 12.76 BTKB ATOM 3983 CE1 TYR 63117.343 3.539 49.518 1.00 12.89 BTKB ATOM 3984 CD2 TYR 631 19.962 3.23348.670 1.00 8.23 BTKB ATOM 3985 CE2 TYR 631 18.929 2.646 47.951 1.0011.55 BTKB ATOM 3986 CZ TYR 631 17.625 2.803 48.381 1.00 13.98 BTKB ATOM3987 OH TYR 631 16.598 2.225 47.683 1.00 16.12 BTKB ATOM 3988 C TYR 63119.844 6.937 50.950 1.00 7.30 BTKB ATOM 3989 O TYR 631 18.719 6.93250.451 1.00 11.12 BTKB ATOM 3990 N SER 632 20.119 7.635 52.048 1.00 9.61BTKB ATOM 3991 CA SER 632 19.067 8.423 52.678 1.00 9.92 BTKB ATOM 3992CB SER 632 19.446 8.838 54.108 1.00 7.09 BTKB ATOM 3993 OG SER 63220.592 9.664 54.130 1.00 8.65 BTKB ATOM 3994 C SER 632 18.759 9.64251.800 1.00 10.16 BTKB ATOM 3995 O SER 632 17.648 10.189 51.820 1.008.62 BTKB ATOM 3996 N CYS 633 19.734 10.013 50.979 1.00 13.59 BTKB ATOM3997 CA CYS 633 19.606 11.146 50.065 1.00 13.01 BTKB ATOM 3998 CB CYS633 20.988 11.537 49.522 1.00 9.51 BTKB ATOM 3999 SG CYS 633 22.26911.873 50.748 1.00 10.09 BTKB ATOM 4000 C CYS 633 18.688 10.861 48.8691.00 11.24 BTKB ATOM 4001 O CYS 633 18.167 11.785 48.264 1.00 11.58 BTKBATOM 4002 N TRP 634 18.448 9.590 48.565 1.00 12.35 BTKB ATOM 4003 CA TRP634 17.649 9.225 47.396 1.00 16.45 BTKB ATOM 4004 CB TRP 634 18.3548.109 46.629 1.00 14.41 BTKB ATOM 4005 CG TRP 634 19.803 8.397 46.4061.00 16.37 BTKB ATOM 4006 CD2 TRP 634 20.885 7.465 46.489 1.00 13.01BTKB ATOM 4007 CE2 TRP 634 22.067 8.178 46.219 1.00 13.10 BTKB ATOM 4008CE3 TRP 634 20.965 6.095 46.765 1.00 12.84 BTKB ATOM 4009 CD1 TRP 63420.361 9.604 46.101 1.00 12.67 BTKB ATOM 4010 NE1 TRP 634 21.717 9.48245.987 1.00 11.33 BTKB ATOM 4011 CZ2 TRP 634 23.325 7.566 46.214 1.0010.17 BTKB ATOM 4012 CZ3 TRP 634 22.213 5.490 46.761 1.00 12.02 BTKBATOM 4013 CH2 TRP 634 23.376 6.227 46.486 1.00 4.94 BTKB ATOM 4014 C TRP634 16.171 8.881 47.541 1.00 20.48 BTKB ATOM 4015 O TRP 634 15.588 8.28846.633 1.00 24.09 BTKB ATOM 4016 N HIS 635 15.550 9.253 48.654 1.0022.92 BTKB ATOM 4017 CA HIS 635 14.128 8.968 48.833 1.00 24.53 BTKB ATOM4018 CB HIS 635 13.670 9.356 50.234 1.00 25.26 BTKB ATOM 4019 CG HIS 63514.517 8.796 51.331 1.00 34.35 BTKB ATOM 4020 CD2 HIS 635 14.645 9.16152.628 1.00 37.85 BTKB ATOM 4021 ND1 HIS 635 15.373 7.731 51.144 1.0040.01 BTKB ATOM 4022 CE1 HIS 635 15.990 7.465 52.282 1.00 41.13 BTKBATOM 4023 NE2 HIS 635 15.567 8.319 53.198 1.00 40.19 BTKB ATOM 4024 CHIS 635 13.361 9.805 47.810 1.00 24.66 BTKB ATOM 4025 O HIS 635 13.55111.016 47.734 1.00 23.32 BTKB ATOM 4026 N GLU 636 12.488 9.179 47.0311.00 26.44 BTKB ATOM 4027 CA GLU 636 11.734 9.939 46.043 1.00 26.89 BTKBATOM 4028 CB GLU 636 10.949 9.006 45.110 1.00 28.33 BTKB ATOM 4029 CGGLU 636 10.700 9.603 43.709 1.00 28.10 BTKB ATOM 4030 CD GLU 636 10.6498.559 42.592 1.00 22.86 BTKB ATOM 4031 OE1 GLU 636 9.696 8.602 41.7861.00 21.50 BTKB ATOM 4032 OE2 GLU 636 11.572 7.715 42.501 1.00 21.58BTKB ATOM 4033 C GLU 636 10.831 10.959 46.753 1.00 27.63 BTKB ATOM 4034O GLU 636 10.420 11.954 46.156 1.00 30.62 BTKB ATOM 4035 N LYS 63710.529 10.714 48.026 1.00 25.98 BTKB ATOM 4036 CA LYS 637 9.724 11.64248.817 1.00 26.32 BTKB ATOM 4037 CB LYS 637 8.924 10.898 49.896 1.0028.32 BTKB ATOM 4038 CG LYS 637 8.125 11.800 50.857 1.00 29.37 BTKB ATOM4039 CD LYS 637 6.661 11.997 50.426 1.00 31.37 BTKB ATOM 4040 CE LYS 6376.512 12.837 49.155 1.00 33.19 BTKB ATOM 4041 NZ LYS 637 5.123 12.79348.607 1.00 32.03 BTKB ATOM 4042 C LYS 637 10.701 12.606 49.485 1.0026.98 BTKB ATOM 4043 O LYS 637 11.212 12.330 50.575 1.00 26.07 BTKB ATOM4044 N ALA 638 10.960 13.729 48.825 1.00 28.49 BTKB ATOM 4045 CA ALA 63811.879 14.746 49.333 1.00 28.72 BTKB ATOM 4046 CB ALA 638 11.658 16.04848.586 1.00 31.16 BTKB ATOM 4047 C ALA 638 11.779 14.985 50.844 1.0028.22 BTKB ATOM 4048 O ALA 638 12.791 15.134 51.529 1.00 25.48 BTKB ATOM4049 N ASP 639 10.554 15.003 51.355 1.00 29.23 BTKB ATOM 4050 CA ASP 63910.295 15.234 52.774 1.00 28.43 BTKB ATOM 4051 CB ASP 639 8.779 15.24853.031 1.00 31.75 BTKB ATOM 4052 CG ASP 639 8.058 16.380 52.288 1.0034.13 BTKB ATOM 4053 OD1 ASP 639 6.951 16.765 52.735 1.00 33.09 BTKBATOM 4054 OD2 ASP 639 8.586 16.881 51.266 1.00 36.59 BTKB ATOM 4055 CASP 639 10.970 14.230 53.718 1.00 28.45 BTKB ATOM 4056 O ASP 639 11.32914.574 54.848 1.00 25.09 BTKB ATOM 4057 N GLU 640 11.146 12.996 53.2441.00 24.72 BTKB ATOM 4058 CA GLU 640 11.754 11.931 54.038 1.00 18.61BTKB ATOM 4059 CB GLU 640 11.297 10.563 53.513 1.00 20.35 BTKB ATOM 4060CG GLU 640 11.609 9.361 54.422 1.00 22.93 BTKB ATOM 4061 CD GLU 64011.329 8.007 53.762 1.00 21.79 BTKB ATOM 4062 OE1 GLU 640 10.997 7.04354.486 1.00 26.11 BTKB ATOM 4063 OE2 GLU 640 11.465 7.895 52.522 1.0015.76 BTKB ATOM 4064 C GLU 640 13.276 12.021 54.030 1.00 18.11 BTKB ATOM4065 O GLU 640 13.950 11.266 54.734 1.00 19.30 BTKB ATOM 4066 N ARG 64113.821 12.935 53.233 1.00 16.37 BTKB ATOM 4067 CA ARG 641 15.273 13.10853.155 1.00 14.52 BTKB ATOM 4068 CB ARG 641 15.682 13.695 51.803 1.0012.65 BTKB ATOM 4069 CG ARG 641 15.358 12.831 50.610 1.00 8.88 BTKB ATOM4070 CD ARG 641 15.886 13.474 49.360 1.00 11.30 BTKB ATOM 4071 NE ARG641 15.231 12.947 48.171 1.00 11.72 BTKB ATOM 4072 CZ ARG 641 14.73113.710 47.206 1.00 13.82 BTKB ATOM 4073 NH1 ARG 641 14.827 15.031 47.2881.00 12.20 BTKB ATOM 4074 NH2 ARG 641 14.071 13.160 46.198 1.00 16.65BTKB ATOM 4075 C ARG 641 15.825 13.988 54.279 1.00 14.27 BTKB ATOM 4076O ARG 641 15.198 14.964 54.692 1.00 16.92 BTKB ATOM 4077 N PRO 64217.017 13.642 54.787 1.00 11.73 BTKB ATOM 4078 CD PRO 642 17.769 12.43854.386 1.00 8.97 BTKB ATOM 4079 CA PRO 642 17.706 14.357 55.863 1.0011.49 BTKB ATOM 4080 CB PRO 642 18.793 13.371 56.269 1.00 10.83 BTKBATOM 4081 CG PRO 642 19.134 12.705 54.949 1.00 11.19 BTKB ATOM 4082 CPRO 642 18.313 15.686 55.423 1.00 12.59 BTKB ATOM 4083 O PRO 642 18.39615.982 54.235 1.00 14.26 BTKB ATOM 4084 N THR 643 18.687 16.513 56.3911.00 13.95 BTKB ATOM 4085 CA THR 643 19.310 17.790 56.081 1.00 11.71BTKB ATOM 4086 CB THR 643 19.003 18.856 57.151 1.00 9.31 BTKB ATOM 4087OG1 THR 643 19.178 18.295 58.453 1.00 13.11 BTKB ATOM 4088 CG2 THR 64317.585 19.370 57.013 1.00 16.43 BTKB ATOM 4089 C THR 643 20.815 17.57456.032 1.00 9.69 BTKB ATOM 4090 O THR 643 21.310 16.524 56.455 1.0010.98 BTKB ATOM 4091 N PHE 644 21.542 18.544 55.489 1.00 8.04 BTKB ATOM4092 CA PHE 644 22.994 18.461 55.430 1.00 7.60 BTKB ATOM 4093 CB PHE 64423.564 19.613 54.593 1.00 9.27 BTKB ATOM 4094 CG PHE 644 23.518 19.37353.106 1.00 11.88 BTKB ATOM 4095 CD1 PHE 644 24.271 18.353 52.530 1.0010.79 BTKB ATOM 4096 CD2 PHE 644 22.749 20.185 52.275 1.00 17.35 BTKBATOM 4097 CE1 PHE 644 24.262 18.145 51.147 1.00 15.55 BTKB ATOM 4098 CE2PHE 644 22.733 19.984 50.885 1.00 14.48 BTKB ATOM 4099 CZ PHE 644 23.49518.959 50.324 1.00 11.64 BTKB ATOM 4100 C PHE 644 23.524 18.508 56.8661.00 8.95 BTKB ATOM 4101 O PHE 644 24.601 17.996 57.163 1.00 10.35 BTKBATOM 4102 N LYS 645 22.736 19.096 57.760 1.00 10.75 BTKB ATOM 4103 CALYS 645 23.098 19.189 59.168 1.00 14.25 BTKB ATOM 4104 CB LYS 645 22.09420.076 59.914 1.00 20.40 BTKB ATOM 4105 CG LYS 645 22.396 20.305 61.4041.00 19.51 BTKB ATOM 4106 CD LYS 645 23.765 20.942 61.644 1.00 21.82BTKB ATOM 4107 CE LYS 645 24.857 19.891 61.826 1.00 18.46 BTKB ATOM 4108NZ LYS 645 26.212 20.491 61.891 1.00 19.87 BTKB ATOM 4109 C LYS 64523.121 17.795 59.784 1.00 12.92 BTKB ATOM 4110 O LYS 645 24.061 17.43360.491 1.00 16.72 BTKB ATOM 4111 N ILE 646 22.067 17.027 59.528 1.0012.66 BTKB ATOM 4112 CA ILE 646 21.949 15.658 60.026 1.00 12.65 BTKBATOM 4113 CB ILE 646 20.527 15.115 59.763 1.00 16.20 BTKB ATOM 4114 CG2ILE 646 20.494 13.594 59.881 1.00 18.66 BTKB ATOM 4115 CG1 ILE 64619.536 15.781 60.726 1.00 16.13 BTKB ATOM 4116 CD ILE 646 18.071 15.53460.391 1.00 16.31 BTKB ATOM 4117 C ILE 646 22.996 14.806 59.305 1.0014.43 BTKB ATOM 4118 O ILE 646 23.772 14.089 59.946 1.00 13.14 BTKB ATOM4119 N LEU 647 23.054 14.957 57.979 1.00 14.30 BTKB ATOM 4120 CA LEU 64724.006 14.254 57.113 1.00 14.73 BTKB ATOM 4121 CB LEU 647 23.879 14.79555.682 1.00 16.19 BTKB ATOM 4122 CG LEU 647 23.584 13.896 54.473 1.0013.29 BTKB ATOM 4123 CD1 LEU 647 22.737 12.680 54.829 1.00 12.13 BTKBATOM 4124 CD2 LEU 647 22.884 14.734 53.433 1.00 9.14 BTKB ATOM 4125 CLEU 647 25.427 14.468 57.633 1.00 12.35 BTKB ATOM 4126 O LEU 647 26.24713.556 57.613 1.00 10.67 BTKB ATOM 4127 N LEU 648 25.692 15.666 58.1421.00 11.64 BTKB ATOM 4128 CA LEU 648 26.996 15.998 58.702 1.00 12.42BTKB ATOM 4129 CB LEU 648 27.125 17.515 58.914 1.00 9.53 BTKB ATOM 4130CG LEU 648 28.505 18.085 59.272 1.00 10.27 BTKB ATOM 4131 CD1 LEU 64829.570 17.603 58.313 1.00 9.87 BTKB ATOM 4132 CD2 LEU 648 28.441 19.57759.254 1.00 7.44 BTKB ATOM 4133 C LEU 648 27.269 15.241 60.009 1.0013.83 BTKB ATOM 4134 O LEU 648 28.369 14.729 60.210 1.00 12.04 BTKB ATOM4135 N SER 649 26.271 15.152 60.886 1.00 13.67 BTKB ATOM 4136 CA SER 64926.439 14.440 62.158 1.00 11.87 BTKB ATOM 4137 CB SER 649 25.187 14.57563.035 1.00 10.55 BTKB ATOM 4138 OG SER 649 24.887 15.929 63.307 1.0012.87 BTKB ATOM 4139 C SER 649 26.711 12.958 61.910 1.00 11.53 BTKB ATOM4140 O SER 649 27.719 12.413 62.366 1.00 14.67 BTKB ATOM 4141 N ASN 65025.808 12.317 61.175 1.00 12.17 BTKB ATOM 4142 CA ASN 650 25.918 10.89760.849 1.00 10.92 BTKB ATOM 4143 CB ASN 650 24.804 10.487 59.880 1.0011.30 BTKB ATOM 4144 CG ASN 650 23.414 10.618 60.498 1.00 14.31 BTKBATOM 4145 OD1 ASN 650 23.236 11.298 61.506 1.00 16.85 BTKB ATOM 4146 ND2ASN 650 22.429 9.962 59.902 1.00 15.42 BTKB ATOM 4147 C ASN 650 27.28010.549 60.272 1.00 11.25 BTKB ATOM 4148 O ASN 650 27.843 9.516 60.5921.00 11.41 BTKB ATOM 4149 N ILE 651 27.809 11.425 59.425 1.00 11.24 BTKBATOM 4150 CA ILE 651 29.119 11.227 58.823 1.00 11.82 BTKB ATOM 4151 CBILE 651 29.364 12.262 57.707 1.00 10.65 BTKB ATOM 4152 CG2 ILE 65130.825 12.736 57.688 1.00 13.31 BTKB ATOM 4153 CG1 ILE 651 28.933 11.67956.358 1.00 9.82 BTKB ATOM 4154 CD ILE 651 28.910 12.690 55.219 1.009.11 BTKB ATOM 4155 C ILE 651 30.214 11.306 59.884 1.00 15.31 BTKB ATOM4156 O ILE 651 31.166 10.527 59.854 1.00 17.19 BTKB ATOM 4157 N LEU 65230.069 12.230 60.831 1.00 17.10 BTKB ATOM 4158 CA LEU 652 31.059 12.39461.888 1.00 14.72 BTKB ATOM 4159 CB LEU 652 30.796 13.654 62.717 1.0013.15 BTKB ATOM 4160 CG LEU 652 31.745 14.827 62.444 1.00 8.61 BTKB ATOM4161 CD1 LEU 652 32.998 14.338 61.694 1.00 10.58 BTKB ATOM 4162 CD2 LEU652 31.041 15.927 61.663 1.00 9.95 BTKB ATOM 4163 C LEU 652 31.23311.180 62.790 1.00 16.01 BTKB ATOM 4164 O LEU 652 32.285 11.022 63.3981.00 16.51 BTKB ATOM 4165 N ASP 653 30.209 10.345 62.920 1.00 21.54 BTKBATOM 4166 CA ASP 653 30.356 9.145 63.732 1.00 24.79 BTKB ATOM 4167 CBASP 653 29.651 9.264 65.099 1.00 28.24 BTKB ATOM 4168 CG ASP 653 28.1719.543 64.990 1.00 24.00 BTKB ATOM 4169 OD1 ASP 653 27.389 8.597 64.7781.00 22.42 BTKB ATOM 4170 OD2 ASP 653 27.780 10.711 65.170 1.00 31.86BTKB ATOM 4171 C ASP 653 29.989 7.854 62.996 1.00 29.44 BTKB ATOM 4172 OASP 653 28.983 7.207 63.287 1.00 31.02 BTKB ATOM 4173 N VAL 654 30.8047.508 62.006 1.00 33.61 BTKB ATOM 4174 CA VAL 654 30.603 6.289 61.2331.00 34.38 BTKB ATOM 4175 CB VAL 654 30.615 6.548 59.700 1.00 33.33 BTKBATOM 4176 CG1 VAL 654 30.247 5.284 58.958 1.00 31.87 BTKB ATOM 4177 CG2VAL 654 29.668 7.660 59.331 1.00 28.22 BTKB ATOM 4178 C VAL 654 31.7665.368 61.580 1.00 37.78 BTKB ATOM 4179 OT1 VAL 654 31.521 4.332 62.2361.00 39.69 BTKB ATOM 4180 OT2 VAL 654 32.916 5.722 61.230 1.00 36.40BTKB END

1. A crystal of BTK kinase domain having a space group symmetry ofP2₁2₁2₁ and comprising a unit cell having the dimensions of a, b, and c,where a is about 45 Å, b is about 104 Å, and c is about 116 Å.
 2. Thecrystal of claim 1, having an amino acid sequence of SEQ ID NO:4.
 3. Amolecule or molecular complex comprising at least a portion of the BTKkinase domain binding pocket, wherein the binding pocket comprises theamino acids listed in Table 2, the binding pocket defined by a set ofpoints having a root mean square deviation of less than about 0.70 Åfrom points representing the backbone atoms of said amino acids asrepresented by the structure coordinates listed in Table
 1. 4. Ascalable three-dimensional configuration of points, at least a portionof said points derived from structure coordinates listed in Table 1,comprising a BTK kinase domain binding pocket, wherein the BTK kinasedomain forms a crystal having the space group symmetry P2₁2₁2₁2.
 5. Thescalable three-dimensional configuration of points of claim 4, whereinsubstantially all of the points are derived from structure coordinateslisted in Table
 1. 6. The scalable three-dimensional configuration ofpoints of claim 4, wherein at least a portion of the points are derivedfrom structure coordinates representing locations of at least thebackbone atoms of amino acids defining the BTK kinase domain bindingpocket.
 7. The scalable three-dimensional configuration of points ofclaim 4, wherein the binding pocket comprises the amino acids listed inTable
 2. 8. A scalable three-dimensional configuration of pointsdisplayed as a holographic image, a stereodiagram, a model, or acomputer-displayed image, at least a portion of said points derived fromstructure coordinates listed in Table 1, comprising a BTK kinase domainbinding pocket, wherein the BTK kinase domain forms a crystal having thespace group symmetry P2₁2₁2₁.
 9. A machine-readable data storage mediumcomprising a data storage material encoded with machine-readable data,wherein a machine programmed with instructions for using such datadisplays a graphical three-dimensional representation of at least onemolecule or molecular complex comprising at least a portion of a BTKkinase domain binding pocket, the binding pocket defined by a set ofpoints having a root mean square deviation of less than about 0.05 Åfrom points representing the atoms of said amino acids as represented bythe structure coordinates listed in Table
 1. 10. A machine readable datastorage medium comprising data storage material encoded with a first setof machine readable data which is combined with a second set of machinereadable data using a machine programmed with instructions for usingsaid first and second sets of data, determines at least a portion of thestructure coordinates corresponding to the second set of data, whereinthe first set of data comprises a Fourier transform of at least aportion of the BTK kinase domain structural coordinates of Table 1, andwherein the second set of data comprises an X-ray diffraction pattern ofan unknown molecule or molecular complex.
 11. A method for obtainingstructural information about a molecule or molecular complex comprisingapplication of at least a portion of the BTK kinase domain structurecoordinates of Table 1 to an X-ray diffraction pattern of the moleculeor molecular complex's crystal structure to generate a three-dimensionalelectron density map of at least a portion of the molecule or molecularcomplex.
 12. A computer-assisted method for identifying an agent thatmodulates BTK activity comprising: (a) providing a computer modelingapplication with a set of structure coordinates of Table 1 defining atleast a portion of a BTK kinase domain; (b) providing the computermodeling application with a set of structure coordinates for a testcompound; and (c) modeling the structure of (a) complexed with (b) todetermine if the test compound binds to the BTK kinase domain bindingpocket.
 13. The method of claim 12, where the binding pocket comprisesthe amino acids listed in Table
 2. 14. A computer-assisted method fordesigning a compound that binds the BTK kinase domain binding pocket,comprising: (a) providing a computer modeling application with a set ofstructural coordinates of Table 1 defining at least a portion of the BTKkinase domain; and (b) modeling the structural coordinates of (a) todetermine a complementary molecule that binds the BTK kinase domainpocket.
 15. A molecular complex comprising a BTK kinase domain bindingpocket defined by at least a portion of the structural coordinates ofTable 1 complexed with a compound having complimentarily to at least aportion of the structural coordinates of Table 1.